Your search keyword '"Ecology/Plant-Environment Interactions"' showing total 89 results

1. The Influence of Recent Climate Change on Tree Height Growth Differs with Species and Spatial Environment

Author

Yassine Messaoud and Han Y. H. Chen

Subjects

0106 biological sciences, Ecology/Global Change Ecology, Time Factors, 010504 meteorology & atmospheric sciences, Climate, Climate Change, lcsh:Medicine, Climate change, Environment, Spatial distribution, 01 natural sciences, Latitude, Trees, Soil, Altitude, Species Specificity, Ecosystem, Picea, lcsh:Science, 0105 earth and related environmental sciences, Multidisciplinary, Geography, Ecology, lcsh:R, Global warming, fungi, Ecology/Plant-Environment Interactions, Temperature, 15. Life on land, Black spruce, Droughts, 13. Climate action, Ecology/Spatial and Landscape Ecology, Environmental science, lcsh:Q, Spatial variability, Physical geography, 010606 plant biology & botany, Research Article

Abstract

Tree growth has been reported to increase in response to recent global climate change in controlled and semi-controlled experiments, but few studies have reported response of tree growth to increased temperature and atmospheric carbon dioxide (CO₂) concentration in natural environments. This study addresses how recent global climate change has affected height growth of trembling aspen (Populus tremuloides Michx) and black spruce (Picea mariana Mill B.S.) in their natural environments. We sampled 145 stands dominated by aspen and 82 dominated by spruce over the entire range of their distributions in British Columbia, Canada. These stands were established naturally after fire between the 19th and 20th centuries. Height growth was quantified as total heights of sampled dominant and co-dominant trees at breast-height age of 50 years. We assessed the relationships between 50-year height growth and environmental factors at both spatial and temporal scales. We also tested whether the tree growth associated with global climate change differed with spatial environment (latitude, longitude and elevation). As expected, height growth of both species was positively related to temperature variables at the regional scale and with soil moisture and nutrient availability at the local scale. While height growth of trembling aspen was not significantly related to any of the temporal variables we examined, that of black spruce increased significantly with stand establishment date, the anomaly of the average maximum summer temperature between May-August, and atmospheric CO₂ concentration, but not with the Palmer Drought Severity Index. Furthermore, the increase of spruce height growth associated with recent climate change was higher in the western than in eastern part of British Columbia. This study demonstrates that the response of height growth to recent climate change, i.e., increasing temperature and atmospheric CO₂ concentration, did not only differ with tree species, but also their growing spatial environment.

Published

2011

2. RNA viruses in hymenopteran pollinators: evidence of inter-Taxa virus transmission via pollen and potential impact on non-Apis hymenopteran species

Author

Amy L. Toth, Diana Cox-Foster, Nancy Ostiguy, Edward C. Holmes, Abby L. Levitt, Edwin G. Rajotte, Dennis vanEngelsdorp, Claude W. dePamphilis, W. Ian Lipkin, and Rajwinder Singh

Subjects

Beekeeping, Pollination, Epidemiology, viruses, ved/biology.organism_classification_rank.species, Evolutionary Biology/Bioinformatics, lcsh:Medicine, Polymerase Chain Reaction, Pollinator, Deformed wing virus, lcsh:Science, Phylogeny, Likelihood Functions, Multidisciplinary, Ecology, Reverse Transcriptase Polymerase Chain Reaction, Ecology/Plant-Environment Interactions, food and beverages, Virology/Diagnosis, Bees, Virology/Virus Evolution and Symbiosis, behavior and behavior mechanisms, Pollen, Ecology/Environmental Microbiology, Research Article, Infectious Diseases/Epidemiology and Control of Infectious Diseases, Apiary, Science Policy, Insect Viruses, Biology, complex mixtures, Virology/Emerging Viral Diseases, Colony collapse disorder, Virology, Ecology/Evolutionary Ecology, Infectious Diseases/Viral Infections, Animals, RNA Viruses, Colony Collapse, Models, Statistical, ved/biology, fungi, lcsh:R, Honey bee, Sequence Analysis, DNA, biology.organism_classification, Hymenoptera, Apicystis bombi, lcsh:Q, Ecology/Ecosystem Ecology

Abstract

Although overall pollinator populations have declined over the last couple of decades, the honey bee (Apis mellifera) malady, colony collapse disorder (CCD), has caused major concern in the agricultural community. Among honey bee pathogens, RNA viruses are emerging as a serious threat and are suspected as major contributors to CCD. Recent detection of these viral species in bumble bees suggests a possible wider environmental spread of these viruses with potential broader impact. It is therefore vital to study the ecology and epidemiology of these viruses in the hymenopteran pollinator community as a whole. We studied the viral distribution in honey bees, in their pollen loads, and in other non-Apis hymenopteran pollinators collected from flowering plants in Pennsylvania, New York, and Illinois in the United States. Viruses in the samples were detected using reverse transcriptase-PCR and confirmed by sequencing. For the first time, we report the molecular detection of picorna-like RNA viruses (deformed wing virus, sacbrood virus and black queen cell virus) in pollen pellets collected directly from forager bees. Pollen pellets from several uninfected forager bees were detected with virus, indicating that pollen itself may harbor viruses. The viruses in the pollen and honey stored in the hive were demonstrated to be infective, with the queen becoming infected and laying infected eggs after these virus-contaminated foods were given to virus-free colonies. These viruses were detected in eleven other non-Apis hymenopteran species, ranging from many solitary bees to bumble bees and wasps. This finding further expands the viral host range and implies a possible deeper impact on the health of our ecosystem. Phylogenetic analyses support that these viruses are disseminating freely among the pollinators via the flower pollen itself. Notably, in cases where honey bee apiaries affected by CCD harbored honey bees with Israeli Acute Paralysis virus (IAPV), nearby non-Apis hymenopteran pollinators also had IAPV, while those near apiaries without IAPV did not. In containment greenhouse experiments, IAPV moved from infected honey bees to bumble bees and from infected bumble bees to honey bees within a week, demonstrating that the viruses could be transmitted from one species to another. This study adds to our present understanding of virus epidemiology and may help explain bee disease patterns and pollinator population decline in general.

Published

2010

3. Ecology and Transmission of Buruli Ulcer Disease: A Systematic Review

Author

M. Eric Benbow, Edward D. Walker, Pamela L. C. Small, Paul D R Johnson, Richard W. Merritt, John R. Wallace, and Daniel A. Boakye

Subjects

Buruli ulcer, Disease reservoir, Disease, Disease Vectors, Infectious Diseases/Skin Infections, Communicable Diseases, Emerging, Infectious Diseases/Bacterial Infections, chemistry.chemical_compound, 0302 clinical medicine, Epidemiology, Environmental Microbiology, Microbiology/Parasitology, Mycolactone, Buruli Ulcer, 0303 health sciences, biology, Ecology, Transmission (medicine), lcsh:Public aspects of medicine, Ecology/Plant-Environment Interactions, Age Factors, 3. Good health, Infectious Diseases, Mycobacterium ulcerans, Ecology/Environmental Microbiology, Research Article, Infectious Diseases/Tropical and Travel-Associated Diseases, Infectious Diseases/Epidemiology and Control of Infectious Diseases, medicine.medical_specialty, Tuberculosis, lcsh:Arctic medicine. Tropical medicine, lcsh:RC955-962, 030231 tropical medicine, Microbiology, 03 medical and health sciences, Ecology/Evolutionary Ecology, medicine, Ecology/Behavioral Ecology, Animals, Humans, Microbiology/Environmental Microbiology, Ecosystem, Disease Reservoirs, 030306 microbiology, Public Health, Environmental and Occupational Health, Microbiology/Medical Microbiology, lcsh:RA1-1270, medicine.disease, biology.organism_classification, chemistry, Infectious Diseases/Neglected Tropical Diseases, Ecology/Spatial and Landscape Ecology

Abstract

Buruli ulcer is a neglected emerging disease that has recently been reported in some countries as the second most frequent mycobacterial disease in humans after tuberculosis. Cases have been reported from at least 32 countries in Africa (mainly west), Australia, Southeast Asia, China, Central and South America, and the Western Pacific. Large lesions often result in scarring, contractual deformities, amputations, and disabilities, and in Africa, most cases of the disease occur in children between the ages of 4–15 years. This environmental mycobacterium, Mycobacterium ulcerans, is found in communities associated with rivers, swamps, wetlands, and human-linked changes in the aquatic environment, particularly those created as a result of environmental disturbance such as deforestation, dam construction, and agriculture. Buruli ulcer disease is often referred to as the “mysterious disease” because the mode of transmission remains unclear, although several hypotheses have been proposed. The above review reveals that various routes of transmission may occur, varying amongst epidemiological setting and geographic region, and that there may be some role for living agents as reservoirs and as vectors of M. ulcerans, in particular aquatic insects, adult mosquitoes or other biting arthropods. We discuss traditional and non-traditional methods for indicting the roles of living agents as biologically significant reservoirs and/or vectors of pathogens, and suggest an intellectual framework for establishing criteria for transmission. The application of these criteria to the transmission of M. ulcerans presents a significant challenge., Author Summary Buruli ulcer (BU) is a serious necrotizing cutaneous infection caused by Mycobacterium ulcerans. It is a neglected emerging disease that has recently been reported in some countries as the second most frequent mycobacterial disease in humans after tuberculosis (TB). Cases have been reported from at least 32 countries in Africa (mainly west), Australia, Southeast Asia, China, Central and South America, and the Western Pacific. BU is a disease found in rural areas located near wetlands (ponds, swamps, marshes, impoundments, backwaters) and slow-moving rivers, especially in areas prone to human-made disturbance and flooding. Despite considerable research on this disease in recent years, the mode of transmission remains unclear, although several hypotheses have been proposed. In this article we review the current state of knowledge on the ecology and transmission of M. ulcerans in Africa and Australia, discuss traditional and non-traditional methods for investigating transmission, and suggest an intellectual framework for establishing criteria for transmission.

Published

2010

4. Taking root: enduring effect of rhizosphere bacterial colonization in mangroves

Author

Newton C. M. Gomes, Daniel F. R. Cleary, Angela Cunha, Conceição Egas, Leda C. Mendonça-Hagler, Adelaide Almeida, Fernando Neves Pinto, and Kornelia Smalla

Subjects

DNA, Bacterial, Science, Plant Biology/Plant-Environment Interactions, Microbiology, Plant Roots, Microbial ecology, Species Specificity, Ecology/Conservation and Restoration Ecology, RNA, Ribosomal, 16S, Ecosystem, Microbiology/Environmental Microbiology, Rhizosphere, Multidisciplinary, biology, Bacteria, Ecology, Ecology/Plant-Environment Interactions, Rhizophoraceae, Species diversity, Sequence Analysis, DNA, Microbiology/Plant-Biotic Interactions, biology.organism_classification, Medicine, Species richness, Mangrove, Ecology/Ecosystem Ecology, Ecology/Environmental Microbiology, Woody plant, Research Article

Abstract

Background: Mangrove forests are of global ecological and economic importance, but are also one of the world’s most threatened ecosystems. Here we present a case study examining the influence of the rhizosphere on the structural composition and diversity of mangrove bacterial communities and the implications for mangrove reforestation approaches using nursery-raised plants. M e t h o d o l o g y / P r i n c i p a l F i n d i n g s : A barcoded pyrosequencing approach was used to assess bacterial diversity in the rhizosphere of plants in a nursery setting, nursery-raised transplants and native (non-transplanted) plants in the same mangrove habitat. In addition to this, we also assessed bacterial composition in the bulk sediment in order to ascertain if the roots of mangrove plants affect sediment bacterial composition. We found that mangrove roots appear to influence bacterial abundance and composition in the rhizosphere. Due to the sheer abundance of roots in mangrove habitat, such an effect can have an important impact on the maintenance of bacterial guilds involved in nutrient cycling and other key ecosystem functions. Surprisingly, we also noted a marked impact of initial nursery conditions on the rhizosphere bacterial composition of replanted mangrove trees. This result is intriguing because mangroves are periodically inundated with seawater and represent a highly dynamic environment compared to the more controlled nursery environment. Conclusions/Significance: In as far as microbial diversity and composition influences plant growth and health, this study indicates that nursery conditions and early microbial colonization patterns of the replants are key factors that should be considered during reforestation projects. In addition to this, our results provide information on the role of the mangrove rhizosphere as a habitat for bacteria from estuarine sediments. published

Published

2010

5. Diversity Promotes Temporal Stability across Levels of Ecosystem Organization in Experimental Grasslands

Author

Proulx, R, Wirth, C, Voigt, W, Weigelt, A, Roscher, C, Attinger, S, Baade, J, Barnard, R L, Buchmann, N, Buscot, F, Eisenhauer, N, Fischer, M, Gleixner, G, Halle, S, Hildebrandt, A, Kowalski, E, Kuu, A, Lange, M, Milcu, A, Niklaus, P A, Oelmann, Y, Rosenkranz, S, Sabais, A, Scherber, C, Scherer-Lorenzen, M, Scheu, S, Schulze, E D, Schumacher, J, Schwichtenberg, G, Soussana, J F, Temperton, V M, Weisser, W W, Wilcke, W, Schmid, B, University of Zurich, Proulx, R, Max Planck Institute for Biogeochemistry (MPI-BGC), Max-Planck-Gesellschaft, Leipzig University, Friedrich-Schiller-Universität = Friedrich Schiller University Jena [Jena, Germany], Helmholtz Zentrum für Umweltforschung = Helmholtz Centre for Environmental Research (UFZ), Eidgenössische Technische Hochschule - Swiss Federal Institute of Technology [Zürich] (ETH Zürich), Darmstadt University of Technology [Darmstadt], J. F. Blumenbach Institute of Zoology and Anthropology, Georg-August-University [Göttingen], Institute of Plant Sciences, University of Bern, Institute of Biochemistry and Biology, Tallinn University of Technology (TTÜ), Center for Population Biology, University of California [Davis] (UC Davis), University of California-University of California, Institute of Evolutionary Biology and Environmental Studies, Universität Zürich [Zürich] = University of Zurich (UZH), Johannes Gutenberg - Universität Mainz (JGU), Department of Crop Sciences, Faculty for Biology, University of Freiburg [Freiburg], UR 0874 Unité de recherche sur l'Ecosystème Prairial, Institut National de la Recherche Agronomique (INRA)-Unité de recherche sur l'Ecosystème Prairial (UREP)-Ecologie des Forêts, Prairies et milieux Aquatiques (EFPA), Institut National de la Recherche Agronomique (INRA), Phytosphere Institute ICG-3, Forschungszentrum Jülich GmbH | Centre de recherche de Juliers, Helmholtz-Gemeinschaft = Helmholtz Association-Helmholtz-Gemeinschaft = Helmholtz Association, Universität Bern- University of Bern [Bern], Partenaires INRAE, and Borevitz, Justin O.

Subjects

1000 Multidisciplinary, Ecology/Community Ecology and Biodiversity, Ecology, [SDV]Life Sciences [q-bio], Science, Ecology/Plant-Environment Interactions, 1100 General Agricultural and Biological Sciences, Biodiversity, Poaceae, 10127 Institute of Evolutionary Biology and Environmental Studies, Ecosystem, Environmental perturbations, 1300 General Biochemistry, Genetics and Molecular Biology, 570 Life sciences, biology, 590 Animals (Zoology), Animals, Medicine, ddc:500, Biomass, Research Article

Abstract

International audience; The diversity-stability hypothesis states that current losses of biodiversity can impair the ability of an ecosystem to dampen the effect of environmental perturbations on its functioning. Using data from a long-term and comprehensive biodiversity experiment, we quantified the temporal stability of 42 variables characterizing twelve ecological functions in managed grassland plots varying in plant species richness. We demonstrate that diversity increases stability i) across trophic levels (producer, consumer), ii) at both the system (community, ecosystem) and the component levels (population, functional group, phylogenetic clade), and iii) primarily for aboveground rather than belowground processes. Temporal synchronization across studied variables was mostly unaffected with increasing species richness. This study provides the strongest empirical support so far that diversity promotes stability across different ecological functions and levels of ecosystem organization in grasslands.

Published

2010

6. Surface covering of downed logs: drivers of a neglected process in dead wood ecology

Author

Joakim Hjältén, Mats Dynesius, and Heloise Gibb

Subjects

Canopy, geography, Multidisciplinary, geography.geographical_feature_category, Peat, Ecology/Community Ecology and Biodiversity, Moisture, Ecology, Taiga, Ecology/Plant-Environment Interactions, lcsh:R, lcsh:Medicine, Bryology, Biology, Wood, Sink (geography), Trees, Habitat, Ecology/Conservation and Restoration Ecology, Ecology/Spatial and Landscape Ecology, lcsh:Q, Coarse woody debris, lcsh:Science, Research Article

Abstract

Many species use coarse woody debris (CWD) and are disadvantaged by the forestry-induced loss of this resource. A neglected process affecting CWD is the covering of the surfaces of downed logs caused by sinking into the ground (increasing soil contact, mostly covering the underside of the log), and dense overgrowth by ground vegetation. Such cover is likely to profoundly influence the quality and accessibility of CWD for wood-inhabiting organisms, but the factors affecting covering are largely unknown. In a five-year experiment we determined predictors of covering rate of fresh logs in boreal forests and clear-cuts. Logs with branches were little covered because they had low longitudinal ground contact. For branchless logs, longitudinal ground contact was most strongly related to estimated peat depth (positive relation). The strongest predictor for total cover of branchless logs was longitudinal ground contact. To evaluate the effect on cover of factors other than longitudinal ground contact, we separately analyzed data from only those log sections that were in contact with the ground. Four factors were prominent predictors of percentage cover of such log sections: estimated peat depth, canopy shade (both increasing cover), potential solar radiation calculated from slope and slope aspect, and diameter of the log (both reducing cover). Peat increased cover directly through its low resistance, which allowed logs to sink and soil contact to increase. High moisture and low temperatures in pole-ward facing slopes and under a canopy favor peat formation through lowered decomposition and enhanced growth of peat-forming mosses, which also proved to rapidly overgrow logs. We found that in some boreal forests, peat and fast-growing mosses can rapidly cover logs lying on the ground. When actively introducing CWD for conservation purposes, we recommend that such rapid covering is avoided, thereby most likely improving the CWD's longevity as habitat for many species.

Published

2010

7. Investigating Agrobacterium-Mediated Transformation of Verticillium albo-atrum on Plant Surfaces

Author

Gary D. Foster, Andy M. Bailey, and Claire J. Knight

Subjects

Acetosyringone, Agrobacterium, lcsh:Medicine, Fungus, Verticillium, chemistry.chemical_compound, Botany, lcsh:Science, DNA Primers, Multidisciplinary, biology, Base Sequence, lcsh:R, fungi, Ecology/Plant-Environment Interactions, Fungal genetics, food and beverages, Agrobacterium tumefaciens, Pathogenic fungus, Plants, biology.organism_classification, Transformation (genetics), Blotting, Southern, chemistry, Ecology/Population Ecology, Autoradiography, lcsh:Q, Ecology/Environmental Microbiology, Research Article

Abstract

BACKGROUND: Agrobacterium tumefaciens has long been known to transform plant tissue in nature as part of its infection process. This natural mechanism has been utilised over the last few decades in laboratories world wide to genetically manipulate many species of plants. More recently this technology has been successfully applied to non-plant organisms in the laboratory, including fungi, where the plant wound hormone acetosyringone, an inducer of transformation, is supplied exogenously. In the natural environment it is possible that Agrobacterium and fungi may encounter each other at plant wound sites, where acetosyringone would be present, raising the possibility of natural gene transfer from bacterium to fungus. METHODOLOGY/PRINCIPAL FINDINGS: We investigate this hypothesis through the development of experiments designed to replicate such a situation at a plant wound site. A. tumefaciens harbouring the plasmid pCAMDsRed was co-cultivated with the common plant pathogenic fungus Verticillium albo-atrum on a range of wounded plant tissues. Fungal transformants were obtained from co-cultivation on a range of plant tissue types, demonstrating that plant tissue provides sufficient vir gene inducers to allow A. tumefaciens to transform fungi in planta. CONCLUSIONS/SIGNIFICANCE: This work raises interesting questions about whether A. tumefaciens may be able to transform organisms other than plants in nature, or indeed should be considered during GM risk assessments, with further investigations required to determine whether this phenomenon has already occurred in nature.

Published

2010

8. Climate Change Alters Seedling Emergence and Establishment in an Old-Field Ecosystem

Author

Aimée T. Classen, Jake F. Weltzin, Katherine E. Sides, Richard J. Norby, and Courtney E. Campany

Subjects

Ecology/Global Change Ecology, Climate Change, Climate change, lcsh:Medicine, Ecological succession, Trees, Ecosystem, Old field, lcsh:Science, Multidisciplinary, biology, Ecology, Phenology, Atmosphere, lcsh:R, Ecology/Plant-Environment Interactions, Global change, Plant community, Carbon Dioxide, biology.organism_classification, Seedling, lcsh:Q, Ecology/Ecosystem Ecology, Research Article

Abstract

Background: Ecological succession drives large-scale changes in ecosystem composition over time, but the mechanisms whereby climatic change might alter succession remain unresolved. Here, we asked if the effects of atmospheric and climatic change would alter tree seedling emergence and establishment in an old-field ecosystem, recognizing that small shifts in rates of seedling emergence and establishment of different species may have long-term repercussions on the transition of fields to forests in the future. Methodology/Principal Findings: We introduced seeds from three early successional tree species into constructed old-field plant communities that had been subjected for 4 years to altered temperature, precipitation, and atmospheric CO2 regimes in an experimental facility. Our experiment revealed that different combinations of atmospheric CO2 concentration, air temperature, and soil moisture altered seedling emergence and establishment. Treatments directly and indirectly affected soil moisture, which was the best predictor of seedling establishment, though treatment effects differed among species. Conclusions: The observed impacts, coupled with variations in the timing of seed arrival, are demonstrated as predictors of seedling emergence and establishment in ecosystems under global change.

Published

2010

9. Interplant Communication of Tomato Plants through Underground Common Mycorrhizal Networks

Author

Jun Li, Xiang Shen, Rensen Zeng, Woldemariam Gebrehiwot Yihdego, Jian Feng Xu, and Yuanyuan Song

Subjects

Ecology/Community Ecology and Biodiversity, Alternaria solani, Defence mechanisms, lcsh:Medicine, Phenylalanine ammonia-lyase, Fungus, Plant disease resistance, Genes, Plant, Lycopersicon, Solanum lycopersicum, Mycorrhizae, Botany, Ecology/Evolutionary Ecology, Plant defense against herbivory, lcsh:Science, Glomus, Multidisciplinary, biology, Reverse Transcriptase Polymerase Chain Reaction, lcsh:R, fungi, Ecology/Plant-Environment Interactions, food and beverages, Alternaria, biology.organism_classification, Ecology/Population Ecology, lcsh:Q, Research Article

Abstract

Plants can defend themselves to pathogen and herbivore attack by responding to chemical signals that are emitted by attacked plants. It is well established that such signals can be transferred through the air. In theory, plants can also communicate with each other through underground common mycorrhizal networks (CMNs) that interconnect roots of multiple plants. However, until now research focused on plant-to-plant carbon nutrient movement and there is no evidence that defense signals can be exchanged through such mycorrhizal hyphal networks. Here, we show that CMNs mediate plant-plant communication between healthy plants and pathogen-infected tomato plants (Lycopersicon esculentum Mill.). After establishment of CMNs with the arbuscular mycorrhizal fungus Glomus mosseae between tomato plants, inoculation of ‘donor’ plants with the pathogen Alternaria solani led to increases in disease resistance and activities of the putative defensive enzymes, peroxidase, polyphenol oxidase, chitinase, β-1,3-glucanase, phenylalanine ammonia-lyase and lipoxygenase in healthy neighbouring ‘receiver’ plants. The uninfected ‘receiver’ plants also activated six defence-related genes when CMNs connected ‘donor’ plants challenged with A. solani. This finding indicates that CMNs may function as a plant-plant underground communication conduit whereby disease resistance and induced defence signals can be transferred between the healthy and pathogen-infected neighbouring plants, suggesting that plants can ‘eavesdrop’ on defence signals from the pathogen-challenged neighbours through CMNs to activate defences before being attacked themselves.

Published

2010

10. Influences of Forest Structure, Climate and Species Composition on Tree Mortality across the Eastern US

Author

David A. Coomes, Emily R. Lines, and Drew W. Purves

Subjects

Ecology/Global Change Ecology, Biomass (ecology), Multidisciplinary, Wood production, Ecology, Climate, lcsh:R, Ecology/Plant-Environment Interactions, Climate change, lcsh:Medicine, Biology, United States, Carbon cycle, Basal area, Trees, Regional variation, Species Specificity, Climateprediction.net, Forest ecology, lcsh:Q, lcsh:Science, Research Article

Abstract

Few studies have quantified regional variation in tree mortality, or explored whether species compositional changes or within-species variation are responsible for regional patterns, despite the fact that mortality has direct effects on the dynamics of woody biomass, species composition, stand structure, wood production and forest response to climate change. Using Bayesian analysis of over 430,000 tree records from a large eastern US forest database we characterised tree mortality as a function of climate, soils, species and size (stem diameter). We found (1) mortality is U-shaped vs. stem diameter for all 21 species examined; (2) mortality is hump-shaped vs. plot basal area for most species; (3) geographical variation in mortality is substantial, and correlated with several environmental factors; and (4) individual species vary substantially from the combined average in the nature and magnitude of their mortality responses to environmental variation. Regional variation in mortality is therefore the product of variation in species composition combined with highly varied mortality-environment correlations within species. The results imply that variation in mortality is a crucial part of variation in the forest carbon cycle, such that including this variation in models of the global carbon cycle could significantly narrow uncertainty in climate change predictions.

Published

2010

11. A Second Dimension to the Leaf Economics Spectrum Predicts Edaphic Habitat Association in a Tropical Forest

Author

Jennifer L. Baltzer and Sean C. Thomas

Subjects

0106 biological sciences, Ecology/Community Ecology and Biodiversity, Biodiversity, lcsh:Medicine, Biology, 010603 evolutionary biology, 01 natural sciences, Trees, Forest ecology, Tropical climate, Ecosystem, lcsh:Science, Shade tolerance, Tropical Climate, Multidisciplinary, Ecology, lcsh:R, Ecology/Plant-Environment Interactions, Plant community, Edaphic, 15. Life on land, Plant Leaves, Habitat, Ecology/Physiological Ecology, lcsh:Q, 010606 plant biology & botany, Research Article

Abstract

Background: Strong patterns of habitat association are frequent among tropical forest trees and contribute to the maintenance of biodiversity. The relation of edaphic differentiation to tradeoffs among leaf functional traits is less clear, but may provide insights into mechanisms of habitat partitioning in these species rich assemblages. Methodology/Principal Findings: We quantify the leaf economics spectrum (LES) for 16 tree species within a Bornean forest characterized by highly pronounced habitat specialization. Our findings suggest that the primary axis of trait variation in light-limited, lowland tropical forests was identical to the LES and corresponds with the shade tolerance continuum. There was no separation with respect to edaphic variation along this primary axis of trait variation. However, a second orthogonal axis determined largely by foliar P concentrations resulted in a near-perfect separation of species occupying distinct soil types within the forest. Conclusions/Significance: We suggest that this second axis of leaf trait variation represents a ‘‘leaf edaphic habitat spectrum’’ related to foliar P and potentially other nutrients closely linked to geological substrate, and may generally occur in plant communities characterized by strong edaphic resource gradients.

Published

2010

12. Relative Importance of Biotic and Abiotic Soil Components to Plant Growth and Insect Herbivore Population Dynamics

Author

Martijn L. Vandegehuchte, Eduardo de la Peña, and Dries Bonte

Subjects

Soil biology, Population Dynamics, lcsh:Medicine, Plant Biology/Plant-Environment Interactions, Biology, Poaceae, Plant Roots, ROOT-FEEDING NEMATODES, Soil, COASTAL DUNES, Edaphology, Soil ecology, Animals, Biomass, lcsh:Science, Abiotic component, Multidisciplinary, Biotic component, BELOW-GROUND INTERACTIONS, Ecology, MARRAM GRASS, lcsh:R, Ecology/Plant-Environment Interactions, Biology and Life Sciences, Soil classification, Biotic stress, Biota, COMMUNITY, Agronomy, MYCORRHIZAL FUNGI, Aphids, Soil water, lcsh:Q, L LINK, ENDOPARASITIC NEMATODES, PARASITIC NEMATODES, GRASS AMMOPHILA-ARENARIA, Research Article, Plant Biology/Plant-Biotic Interactions

Abstract

Background: Plants are affected by several aspects of the soil, which have the potential to exert cascading effects on the performance of herbivorous insects. The effects of biotic and abiotic soil characteristics have however mostly been investigated in isolation, leaving their relative importance largely unexplored. Such is the case for the dune grass Ammophila, whose decline under decreasing sand accretion is argued to be caused by either biotic or abiotic soil properties. Methodology/Principal Findings: By manipulating dune soils from three different regions, we decoupled the contributions of region, the abiotic and biotic soil component to the variation in characteristics of Ammophila arenaria seedlings and Schizaphis rufula aphid populations. Root mass fraction and total dry biomass of plants were affected by soil biota, although the latter effect was not consistent across regions. None of the measured plant properties were significantly affected by the abiotic soil component. Aphid population characteristics all differed between regions, irrespective of whether soil biota were present or absent. Hence these effects were due to differences in abiotic soil properties between regions. Although several chemical properties of the soil mixtures were measured, none of these were consistent with results for plant or aphid traits. Conclusions/Significance: Plants were affected more strongly by soil biota than by abiotic soil properties, whereas the opposite was true for aphids. Our results thus demonstrate that the relative importance of the abiotic and biotic component of soils can differ for plants and their herbivores. The fact that not all effects of soil properties could be detected across regions moreover emphasizes the need for spatial replication in order to make sound conclusions about the generality of aboveground-belowground interactions.

Published

2010

13. Positive Feedback between Mycorrhizal Fungi and Plants Influences Plant Invasion Success and Resistance to Invasion

Author

Shuijin Hu, Ruyi Yang, Qian Zhang, Xin Chen, Jianjun Tang, and Haishui Yang

Subjects

Ecology/Community Ecology and Biodiversity, DNA, Plant, lcsh:Medicine, Introduced species, Biology, Solidago canadensis, Invasive species, Mycorrhizae, Botany, lcsh:Science, Glomus, Plant Physiological Phenomena, Mutualism (biology), Feedback, Physiological, Multidisciplinary, lcsh:R, fungi, Ecology/Plant-Environment Interactions, Plant community, Native plant, Plants, Spores, Fungal, biology.organism_classification, Plant ecology, lcsh:Q, Ecology/Environmental Microbiology, Research Article

Abstract

Negative or positive feedback between arbuscular mycorrhizal fungi (AMF) and host plants can contribute to plant species interactions, but how this feedback affects plant invasion or resistance to invasion is not well known. Here we tested how alterations in AMF community induced by an invasive plant species generate feedback to the invasive plant itself and affect subsequent interactions between the invasive species and its native neighbors. We first examined the effects of the invasive forb Solidago canadensis L. on AMF communities comprising five different AMF species. We then examined the effects of the altered AMF community on mutualisms formed with the native legume forb species Kummerowia striata (Thunb.) Schindl. and on the interaction between the invasive and native plants. The host preferences of the five AMF were also assessed to test whether the AMF form preferred mutualistic relations with the invasive and/or the native species. We found that S. canadensis altered AMF spore composition by increasing one AMF species (Glomus geosporum) while reducing Glomus mosseae, which is the dominant species in the field. The host preference test showed that S. canadensis had promoted the abundance of AMF species (G. geosporum) that most promoted its own growth. As a consequence, the altered AMF community enhanced the competitiveness of invasive S. canadensis at the expense of K. striata. Our results demonstrate that the invasive S. canadensis alters soil AMF community composition because of fungal-host preference. This change in the composition of the AMF community generates positive feedback to the invasive S. canadensis itself and decreases AM associations with native K. striata, thereby making the native K. striata less dominant.

Published

2010

14. Ambient Temperature Influences Australian Native Stingless Bee (Trigona carbonaria) Preference for Warm Nectar

Author

Tim A. Heard, Melanie Beth Norgate, Skye Boyd-Gerny, Vera Simonov, Marcello G. P. Rosa, and Adrian G. Dyer

Subjects

Pollination, Plant Nectar, Stingless bee, media_common.quotation_subject, lcsh:Medicine, Insect, Flowers, Insect flight, Pollinator, Nectar, Ecology/Behavioral Ecology, Animals, lcsh:Science, media_common, Multidisciplinary, biology, Behavior, Animal, Ecology, lcsh:R, Ecology/Plant-Environment Interactions, Neuroscience/Animal Cognition, Temperature, Bees, biology.organism_classification, Molecular Imaging, Plant species, lcsh:Q, Laboratories, Research Article

Abstract

The interaction between flowers and insect pollinators is an important aspect of the reproductive mechanisms of many plant species. Several laboratory and field studies indicate that raising flower temperature above ambient can be an advantage in attracting pollinators. Here we demonstrate that this preference for warmer flowers is, in fact, context-dependent. Using an Australian native bee as a model, we demonstrate for the first time a significant shift in behaviour when the ambient temperature reaches 34 degrees C, at which point bees prefer ambient temperature nectar over warmer nectar. We then use thermal imaging techniques to show warmer nectar maintains the flight temperature of bees during the period of rest on flowers at lower ambient temperatures but the behavioural switch is associated with the body temperature rising above that maintained during flight. These findings suggest that flower-pollinator interactions are dependent upon ambient temperature and may therefore alter in different thermal environments.

Published

2010

15. Bio-energy retains its mitigation potential under elevated CO2

Author

Nicolas Viovy, Sylvestre Njakou Djomo, Ivan A. Janssens, Martin Lukac, Carlo Calfapietra, Reinhart Ceulemans, Giuseppe Scarascia-Mugnozza, Sebastiaan Luyssaert, Marcel R. Hoosbeek, Marion Liberloo, Valentin Bellassen, Galina Churkina, Department of Biology, University of Antwerp (UA), Laboratoire des Sciences du Climat et de l'Environnement [Gif-sur-Yvette] (LSCE), Institut national des sciences de l'Univers (INSU - CNRS)-Université Paris-Saclay-Centre National de la Recherche Scientifique (CNRS)-Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Université de Versailles Saint-Quentin-en-Yvelines (UVSQ), Natural Environment Research Council (NERC), Centre for Population Biology, Imperial College London, Institute of Agro-Environmental and Forest Biology (IBAF), Consiglio Nazionale delle Ricerche [Roma] (CNR), Department of Environmental Sciences [Wageningen], Wageningen University and Research [Wageningen] (WUR), Modélisation des Surfaces et Interfaces Continentales (MOSAIC), Institut national des sciences de l'Univers (INSU - CNRS)-Université Paris-Saclay-Centre National de la Recherche Scientifique (CNRS)-Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Université de Versailles Saint-Quentin-en-Yvelines (UVSQ)-Institut national des sciences de l'Univers (INSU - CNRS)-Université Paris-Saclay-Centre National de la Recherche Scientifique (CNRS)-Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Université de Versailles Saint-Quentin-en-Yvelines (UVSQ), Leibniz-Zentrum für Agrarlandschaftsforschung = Leibniz Centre for Agricultural Landscape Research (ZALF), Université de Versailles Saint-Quentin-en-Yvelines (UVSQ)-Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Institut national des sciences de l'Univers (INSU - CNRS)-Université Paris-Saclay-Centre National de la Recherche Scientifique (CNRS), NERC, IBAF, National Research Council [Italy] (CNR), Leibniz-Zentrum für Agrarlandschaftsforschung (ZALF), Leibniz Association, DOFOCO (242654), European Project: 242564,EC:FP7:ERC,ERC-2009-StG,DOFOCO(2010), Systems Ecology, Wageningen University and Research Centre [Wageningen] (WUR), National Research Council of Italy | Consiglio Nazionale delle Ricerche (CNR), and Université de Versailles Saint-Quentin-en-Yvelines (UVSQ)-Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Institut national des sciences de l'Univers (INSU - CNRS)-Université Paris-Saclay-Centre National de la Recherche Scientifique (CNRS)-Université de Versailles Saint-Quentin-en-Yvelines (UVSQ)-Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Institut national des sciences de l'Univers (INSU - CNRS)-Université Paris-Saclay-Centre National de la Recherche Scientifique (CNRS)

Subjects

enrichment, 010504 meteorology & atmospheric sciences, [SDV]Life Sciences [q-bio], Energy balance, 02 engineering and technology, Carbon sequestration, 01 natural sciences, 7. Clean energy, irrigation, Agricultural soil science, Environmental protection, 0202 electrical engineering, electronic engineering, information engineering, SDG 13 - Climate Action, Biomass, rotation poplar plantation, 2. Zero hunger, Multidisciplinary, agricultural irrigation, Chemistry, Agroforestry, Ecology/Plant-Environment Interactions, Carbon sink, Plants, séquestration du carbone, carbon dioxine, Biofuel, Medicine, coniferous forests, Research Article, Ecology/Global Change Ecology, productivity, Science, 020209 energy, Plant Development, poplars, Earth System Science, soil, Bioenergy, biomass production, greenhouse gases, increases, Biology, fossil fuel, 0105 earth and related environmental sciences, WIMEK, business.industry, combustible fossile, Fossil fuel, Carbon Dioxide, 15. Life on land, carbon sequestration, life cycles, biofuels, biocarburant, 13. Climate action, Greenhouse gas, Leerstoelgroep Aardsysteemkunde, carbone, Short rotation coppice, Ecology/Ecosystem Ecology, Energy Metabolism, business

Abstract

Background: If biofuels are to be a viable substitute for fossil fuels, it is essential that they retain their potential to mitigate climate change under future atmospheric conditions. Elevated atmospheric CO2 concentration [CO2] stimulates plant biomass production; However, the beneficial effects of increased production may be offset by higher energy costs in crop management. Methodology/Main Findings: We maintained full size poplar short rotation coppice (SRC) systems under both current ambient and future elevated [CO2] (550 ppm) and estimated their net energy and greenhouse gas balance. We show that a poplar SRC system is energy efficient and produces more energy than required for coppice management. Even more, elevated [CO2] will increase the net energy production and greenhouse gas balance of a SRC system with 18%. Managing the trees in shorter rotation cycles (i.e., 2 year cycles instead of 3 year cycles) will further enhance the benefits from elevated [CO2] on both the net energy and greenhouse gas balance. Conclusions/Significance: Adapting coppice management to the future atmospheric [CO2] is necessary to fully benefit from the climate mitigation potential of bio-energy systems. Further, a future increase in potential biomass production due to elevated [CO2] outweighs the increased production costs resulting in a northward extension of the area where SRC is greenhouse gas neutral. Currently, the main part of the European terrestrial carbon sink is found in forest biomass and attributed to harvesting less than the annual growth in wood. Because SRC is intensively managed, with a higher turnover in wood production than conventional forest, northward expansion of SRC is likely to erode the European terrestrial carbon sink.

Published

2010

16. Phylogenetic analysis of local-scale tree soil associations in a lowland moist tropical forest

Author

David L. Erickson, Laura A. Schreeg, Nathan G. Swenson, and W. John Kress

Subjects

0106 biological sciences, Ecology/Community Ecology and Biodiversity, Science, 010603 evolutionary biology, 01 natural sciences, Trees, 03 medical and health sciences, Soil, Species Specificity, Phylogenetics, Tropical climate, Ecology/Evolutionary Ecology, Phylogeny, 030304 developmental biology, 0303 health sciences, Principal Component Analysis, Tropical Climate, Multidisciplinary, biology, Phylogenetic tree, Forest dynamics, Ecology, Laurales, Ecology/Plant-Environment Interactions, Plant community, 15. Life on land, biology.organism_classification, Taxon, Soil water, Medicine, Research Article

Abstract

BackgroundLocal plant-soil associations are commonly studied at the species-level, while associations at the level of nodes within a phylogeny have been less well explored. Understanding associations within a phylogenetic context, however, can improve our ability to make predictions across systems and can advance our understanding of the role of evolutionary history in structuring communities.Methodology/principal findingsHere we quantified evolutionary signal in plant-soil associations using a DNA sequence-based community phylogeny and several soil variables (e.g., extractable phosphorus, aluminum and manganese, pH, and slope as a proxy for soil water). We used published plant distributional data from the 50-ha plot on Barro Colorado Island (BCI), Republic of Panamá. Our results suggest some groups of closely related species do share similar soil associations. Most notably, the node shared by Myrtaceae and Vochysiaceae was associated with high levels of aluminum, a potentially toxic element. The node shared by Apocynaceae was associated with high extractable phosphorus, a nutrient that could be limiting on a taxon specific level. The node shared by the large group of Laurales and Magnoliales was associated with both low extractable phosphorus and with steeper slope. Despite significant node-specific associations, this study detected little to no phylogeny-wide signal. We consider the majority of the 'traits' (i.e., soil variables) evaluated to fall within the category of ecological traits. We suggest that, given this category of traits, phylogeny-wide signal might not be expected while node-specific signals can still indicate phylogenetic structure with respect to the variable of interest.ConclusionsWithin the BCI forest dynamics plot, distributions of some plant taxa are associated with local-scale differences in soil variables when evaluated at individual nodes within the phylogenetic tree, but they are not detectable by phylogeny-wide signal. Trends highlighted in this analysis suggest how plant-soil associations may drive plant distributions and diversity at the local-scale.

Published

2010

17. Transgene x environment interactions in genetically modified wheat

Author

Bernhard Schmid, Beat Keller, Simon L. Zeller, Susanne Brunner, Olena Kalinina, and University of Zurich

Subjects

Blumeria graminis, lcsh:Medicine, Plant Biology/Plant-Environment Interactions, Genetically modified crops, 1100 General Agricultural and Biological Sciences, Plant disease resistance, Biology, Genetically modified wheat, 580 Plants (Botany), chemistry.chemical_compound, 10127 Institute of Evolutionary Biology and Environmental Studies, Ascomycota, 10126 Department of Plant and Microbial Biology, 1300 General Biochemistry, Genetics and Molecular Biology, Plant breeding, lcsh:Science, Triticum, Plant Proteins, Fenpropimorph, 1000 Multidisciplinary, Multidisciplinary, Ecology/Plant-Environment Interactions, fungi, lcsh:R, food and beverages, biology.organism_classification, Plants, Genetically Modified, Genetically modified organism, Agronomy, chemistry, Plant Biology/Agricultural Biotechnology, 570 Life sciences, biology, 590 Animals (Zoology), lcsh:Q, Powdery mildew, Research Article

Abstract

Background: The introduction of transgenes into plants may cause unintended phenotypic effects which could have an impact on the plant itself and the environment. Little is published in the scientific literature about the interrelation of environmental factors and possible unintended effects in genetically modified (GM) plants. Methods and Findings: We studied transgenic bread wheat Triticum aestivum lines expressing the wheat Pm3b gene against the fungus powdery mildew Blumeria graminis f.sp. tritici. Four independent offspring pairs, each consisting of a GM line and its corresponding non-GM control line, were grown under different soil nutrient conditions and with and without fungicide treatment in the glasshouse. Furthermore, we performed a field experiment with a similar design to validate our glasshouse results. The transgene increased the resistance to powdery mildew in all environments. However, GM plants reacted sensitive to fungicide spraying in the glasshouse. Without fungicide treatment, in the glasshouse GM lines had increased vegetative biomass and seed number and a twofold yield compared with control lines. In the field these results were reversed. Fertilization generally increased GM/control differences in the glasshouse but not in the field. Two of four GM lines showed up to 56% yield reduction and a 40-fold increase of infection with ergot disease Claviceps purpurea compared with their control lines in the field experiment; one GM line was very similar to its control. Conclusions: Our results demonstrate that, depending on the insertion event, a particular transgene can have large effects on the entire phenotype of a plant and that these effects can sometimes be reversed when plants are moved from the glasshouse to the field. However, it remains unclear which mechanisms underlie these effects and how they may affect concepts in molecular plant breeding and plant evolutionary ecology.

Published

2010

18. Climatic variability leads to later seasonal flowering of Floridian plants

Author

Yun Wei, Betsy Von Holle, and David M. Nickerson

Subjects

Ecology/Global Change Ecology, Climate Change, Biogeography, Plant Development, Climate change, lcsh:Medicine, Introduced species, Flowers, Subtropics, Biology, Invasive species, Ecology/Conservation and Restoration Ecology, Ecosystem, skin and connective tissue diseases, lcsh:Science, Multidisciplinary, Ecology, Ecology/Plant-Environment Interactions, Global warming, lcsh:R, Global change, Florida, lcsh:Q, Seasons, sense organs, Research Article

Abstract

Understanding species responses to global change will help predict shifts in species distributions as well as aid in conservation. Changes in the timing of seasonal activities of organisms over time may be the most responsive and easily observable indicator of environmental changes associated with global climate change. It is unknown how global climate change will affect species distributions and developmental events in subtropical ecosystems or if climate change will differentially favor nonnative species. Contrary to previously observed trends for earlier flowering onset of plant species with increasing spring temperatures from mid and higher latitudes, we document a trend for delayed seasonal flowering among plants in Florida. Additionally, there were few differences in reproductive responses by native and nonnative species to climatic changes. We argue that plants in Florida have different reproductive cues than those from more northern climates. With global change, minimum temperatures have become more variable within the temperate-subtropical zone that occurs across the peninsula and this variation is strongly associated with delayed flowering among Florida plants. Our data suggest that climate change varies by region and season and is not a simple case of species responding to consistently increasing temperatures across the region. Research on climate change impacts need to be extended outside of the heavily studied higher latitudes to include subtropical and tropical systems in order to properly understand the complexity of regional and seasonal differences of climate change on species responses.

Published

2010

19. Herbivory on temperate rainforest seedlings in sun and shade: resistance, tolerance and habitat distribution

Author

Ernesto Gianoli and Cristian Salgado-Luarte

Subjects

Ecology/Community Ecology and Biodiversity, Specific leaf area, lcsh:Medicine, Rainforest, Trees, Ecology/Evolutionary Ecology, Botany, Animals, Biomass, lcsh:Science, Shade tolerance, Ecosystem, Tropical Climate, Herbivore, Multidisciplinary, biology, Ecology/Plant-Environment Interactions, lcsh:R, Embothrium coccineum, Understory, South America, biology.organism_classification, Agronomy, Seedlings, Seedling, Sunlight, lcsh:Q, Research Article, Woody plant

Abstract

Differential herbivory and/or differential plant resistance or tolerance in sun and shade environments may influence plant distribution along the light gradient. Embothrium coccineum is one of the few light-demanding tree species in the temperate rainforest of southern South America, and seedlings are frequently attacked by insects and snails. Herbivory may contribute to the exclusion of E. coccineum from the shade if 1) herbivory pressure is greater in the shade, which in turn can result from shade plants being less resistant or from habitat preferences of herbivores, and/or 2) consequences of damage are more detrimental in the shade, i.e., shade plants are less tolerant. We tested this in a field study with naturally established seedlings in treefall gaps (sun) and forest understory (shade) in a temperate rainforest of southern Chile. Seedlings growing in the sun sustained nearly 40% more herbivore damage and displayed half of the specific leaf area than those growing in the shade. A palatability test showed that a generalist snail consumed ten times more leaf area when fed on shade leaves compared to sun leaves, i.e., plant resistance was greater in sun-grown seedlings. Herbivore abundance (total biomass) was two-fold greater in treefall gaps compared to the forest understory. Undamaged seedlings survived better and showed a slightly higher growth rate in the sun. Whereas simulated herbivory in the shade decreased seedling survival and growth by 34% and 19%, respectively, damaged and undamaged seedlings showed similar survival and growth in the sun. Leaf tissue lost to herbivores in the shade appears to be too expensive to replace under the limiting light conditions of forest understory. Following evaluations of herbivore abundance and plant resistance and tolerance in contrasting light environments, we have shown how herbivory on a light-demanding tree species may contribute to its exclusion from shade sites. Thus, in the shaded forest understory, where the seedlings of some tree species are close to their physiological tolerance limit, herbivory could play an important role in plant establishment.

Published

2010

20. Large-range movements of neotropical orchid bees observed via radio telemetry

Author

Wikelski, Martin, Moxley, Jerry, Eaton-Mordas, Alexander, López-Uribe, Margarita M., Holland, Richard, Moskowitz, David, Roubik, David W., and Kays, Roland

Subjects

Male, Tropical Climate, Evolutionary Biology/Animal Behavior, Ecology, Geography, Movement, Science, Ecology/Plant-Environment Interactions, Bees, Radio, Ecology/Spatial and Landscape Ecology, Flight, Animal, ddc:570, Ecology/Evolutionary Ecology, Animals, Telemetry, Medicine, Orchidaceae, Ecosystem, Research Article

Abstract

Neotropical orchid bees (Euglossini) are often cited as classic examples of trapline-foragers with potentially extensive foraging ranges. If long-distance movements are habitual, rare plants in widely scattered locations may benefit from euglossine pollination services. Here we report the first successful use of micro radio telemetry to track the movement of an insect pollinator in a complex and forested environment. Our results indicate that individual male orchid bees (Exaerete frontalis) habitually use large rainforest areas (at least 42-115 ha) on a daily basis. Aerial telemetry located individuals up to 5 km away from their core areas, and bees were often stationary, for variable periods, between flights to successive localities. These data suggest a higher degree of site fidelity than what may be expected in a free living male bee, and has implications for our understanding of biological activity patterns and the evolution of forest pollinators.

Published

2010

21. The effects of nutrient dynamics on root patch choice

Author

Ariel Novoplansky, Ofer Ovadia, Hagai Shemesh, Adi Arbiv, and Mordechai Gersani

Subjects

Root growth, Foraging, lcsh:Medicine, Biology, Plant Roots, Sativum, Nutrient, Ecology/Evolutionary Ecology, Ecology/Behavioral Ecology, Biomass, lcsh:Science, Biomass (ecology), Multidisciplinary, Plant roots, Ecology, Reproduction, Ecology/Plant-Environment Interactions, lcsh:R, Peas, food and beverages, Agronomy, Homogeneous, Food, Evolutionary ecology, lcsh:Q, Research Article

Abstract

Plants have been recognized to be capable of allocating more roots to rich patches in the soil. We tested the hypothesis that in addition to their sensitivity to absolute differences in nutrient availability, plants are also responsive to temporal changes in nutrient availability. Different roots of the same Pisum sativum plants were subjected to variable homogeneous and heterogeneous temporally – dynamic and static nutrient regimes. When given a choice, plants not only developed greater root biomasses in richer patches; they discriminately allocated more resources to roots that developed in patches with increasing nutrient levels, even when their other roots developed in richer patches. These results suggest that plants are able to perceive and respond to dynamic environmental changes. This ability might enable plants to increase their performance by responding to both current and anticipated resource availabilities in their immediate proximity.

Published

2010

22. Recent widespread tree growth decline despite increasing atmospheric CO2

Author

Madhur Anand, Mark Leithead, and Lucas C. R. Silva

Subjects

0106 biological sciences, Canada, 010504 meteorology & atmospheric sciences, lcsh:Medicine, Climate change, Plant Biology/Plant-Environment Interactions, Biology, 010603 evolutionary biology, 01 natural sciences, Basal area, Trees, Plant Biology/Plant Biochemistry and Physiology, Dendrochronology, Temperate climate, lcsh:Science, 0105 earth and related environmental sciences, Multidisciplinary, Ecology, lcsh:R, Taiga, Ecology/Plant-Environment Interactions, Temperature, 15. Life on land, Carbon Dioxide, Deciduous, Boreal, Ecology/Physiological Ecology, 13. Climate action, lcsh:Q, Ecology/Ecosystem Ecology, Temperate rainforest, Research Article

Abstract

Background The synergetic effects of recent rising atmospheric CO2 and temperature are expected to favor tree growth in boreal and temperate forests. However, recent dendrochronological studies have shown site-specific unprecedented growth enhancements or declines. The question of whether either of these trends is caused by changes in the atmosphere remains unanswered because dendrochronology alone has not been able to clarify the physiological basis of such trends. Methodology/Principal Findings Here we combined standard dendrochronological methods with carbon isotopic analysis to investigate whether atmospheric changes enhanced water use efficiency (WUE) and growth of two deciduous and two coniferous tree species along a 9° latitudinal gradient across temperate and boreal forests in Ontario, Canada. Our results show that although trees have had around 53% increases in WUE over the past century, growth decline (measured as a decrease in basal area increment – BAI) has been the prevalent response in recent decades irrespective of species identity and latitude. Since the 1950s, tree BAI was predominantly negatively correlated with warmer climates and/or positively correlated with precipitation, suggesting warming induced water stress. However, where growth declines were not explained by climate, WUE and BAI were linearly and positively correlated, showing that declines are not always attributable to warming induced stress and additional stressors may exist. Conclusions Our results show an unexpected widespread tree growth decline in temperate and boreal forests due to warming induced stress but are also suggestive of additional stressors. Rising atmospheric CO2 levels during the past century resulted in consistent increases in water use efficiency, but this did not prevent growth decline. These findings challenge current predictions of increasing terrestrial carbon stocks under climate change scenarios.

Published

2010

23. The Loss of Species: Mangrove Extinction Risk and Geographic Areas of Global Concern

Author

Toyohiko Miyagi, Nico Koedam, Gregg E. Moore, Yamin Wang, Jin Eong Ong, Suzanne R. Livingstone, Kandasamy Kathiresan, Severino G. Salmo, Jonnell C. Sanciangco, Elizabeth J. Farnsworth, Kent E. Carpenter, Vien Ngoc Nam, Sukristijono Sukardjo, Aaron M. Ellison, Norman C. Duke, Jurgenne H. Primavera, Lorna Collins, Jean Wan Hong Yong, Beth Polidoro, Edwino S. Fernando, and Joanna C. Ellison

Subjects

Ecology/Community Ecology and Biodiversity, Science, Endangered species, Biodiversity, Biology, Extinction, Biological, Ecology/Marine and Freshwater Ecology, Trees, Ecology/Conservation and Restoration Ecology, IUCN Red List, Ecosystem, Probability, Multidisciplinary, Extinction, Ecology, Ecology/Plant-Environment Interactions, Endangered Species, Rhizophoraceae, Central America, biology.organism_classification, Marine and Aquatic Sciences/Conservation Science, Threatened species, Medicine, Mangrove, Global biodiversity, Research Article

Abstract

Mangrove species are uniquely adapted to tropical and subtropical coasts, and although relatively low in number of species, mangrove forests provide at least US $1.6 billion each year in ecosystem services and support coastal livelihoods worldwide. Globally, mangrove areas are declining rapidly as they are cleared for coastal development and aquaculture and logged for timber and fuel production. Little is known about the effects of mangrove area loss on individual mangrove species and local or regional populations. To address this gap, species-specific information on global distribution, population status, life history traits, and major threats were compiled for each of the 70 known species of mangroves. Each species' probability of extinction was assessed under the Categories and Criteria of the IUCN Red List of Threatened Species. Eleven of the 70 mangrove species (16%) are at elevated threat of extinction. Particular areas of geographical concern include the Atlantic and Pacific coasts of Central America, where as many as 40% of mangroves species present are threatened with extinction. Across the globe, mangrove species found primarily in the high intertidal and upstream estuarine zones, which often have specific freshwater requirements and patchy distributions, are the most threatened because they are often the first cleared for development of aquaculture and agriculture. The loss of mangrove species will have devastating economic and environmental consequences for coastal communities, especially in those areas with low mangrove diversity and high mangrove area or species loss. Several species at high risk of extinction may disappear well before the next decade if existing protective measures are not enforced.

Published

2010

24. Genetic compatibility determines endophyte-grass combinations

Author

Kari Saikkonen, Marjo Helander, and Piippa R. Wäli

Subjects

0106 biological sciences, Population, Biodiversity, lcsh:Medicine, Growing season, Population genetics, Biology, Poaceae, 010603 evolutionary biology, 01 natural sciences, Endophyte, Ecology/Evolutionary Ecology, lcsh:Science, education, Symbiosis, 2. Zero hunger, education.field_of_study, Multidisciplinary, Ecology, Host (biology), lcsh:R, Ecology/Plant-Environment Interactions, Fungal genetics, Fungi, food and beverages, biology.organism_classification, Agronomy, Ecology/Population Ecology, Ecology/Theoretical Ecology, Genetic structure, lcsh:Q, Ecology/Environmental Microbiology, 010606 plant biology & botany, Rhizobium, Research Article

Abstract

Even highly mutually beneficial microbial-plant interactions, such as mycorrhizal- and rhizobial-plant exchanges, involve selfishness, cheating and power-struggles between the partners, which depending on prevailing selective pressures, lead to a continuum of interactions from antagonistic to mutualistic. Using manipulated grass-endophyte combinations in a five year common garden experiment, we show that grass genotypes and genetic mismatches constrain genetic combinations between the vertically (via host seeds) transmitted endophytes and the out-crossing host, thereby reducing infections in established grass populations. Infections were lost in both grass tillers and seedlings in F(1) and F(2) generations, respectively. Experimental plants were collected as seeds from two different environments, i.e., meadows and nearby riverbanks. Endophyte-related benefits to the host included an increased number of inflorescences, but only in meadow plants and not until the last growing season of the experiment. Our results illustrate the importance of genetic host specificity and trans-generational maternal effects on the genetic structure of a host population, which act as destabilizing forces in endophyte-grass symbioses. We propose that (1) genetic mismatches may act as a buffering mechanism against highly competitive endophyte-grass genotype combinations threatening the biodiversity of grassland communities and (2) these mismatches should be acknowledged, particularly in breeding programmes aimed at harnessing systemic and heritable endophytes to improve the agriculturally valuable characteristics of cultivars.

Published

2010

25. Plant Species and Functional Group Combinations Affect Green Roof Ecosystem Functions

Author

Melissa A. Ranalli, Jeremy Lundholm, Zachary MacDougall, and J. Scott MacIvor

Subjects

Conservation of Natural Resources, Ecology/Community Ecology and Biodiversity, 010504 meteorology & atmospheric sciences, Green roof, Biodiversity, lcsh:Medicine, 010501 environmental sciences, Poaceae, 01 natural sciences, Ecosystem services, Species Specificity, Evapotranspiration, Ecosystem, lcsh:Science, Roof, Plant Physiological Phenomena, 0105 earth and related environmental sciences, 2. Zero hunger, Hydrology, Multidisciplinary, Ecology, lcsh:R, Ecology/Plant-Environment Interactions, Vegetation, 15. Life on land, Plants, Nova Scotia, 13. Climate action, Facility Design and Construction, Environmental science, lcsh:Q, Seasons, Monoculture, Ecology/Ecosystem Ecology, Research Article

Abstract

Background Green roofs perform ecosystem services such as summer roof temperature reduction and stormwater capture that directly contribute to lower building energy use and potential economic savings. These services are in turn related to ecosystem functions performed by the vegetation layer such as radiation reflection and transpiration, but little work has examined the role of plant species composition and diversity in improving these functions. Methodology/Principal Findings We used a replicated modular extensive (shallow growing- medium) green roof system planted with monocultures or mixtures containing one, three or five life-forms, to quantify two ecosystem services: summer roof cooling and water capture. We also measured the related ecosystem properties/processes of albedo, evapotranspiration, and the mean and temporal variability of aboveground biomass over four months. Mixtures containing three or five life-form groups, simultaneously optimized several green roof ecosystem functions, outperforming monocultures and single life-form groups, but there was much variation in performance depending on which life-forms were present in the three life-form mixtures. Some mixtures outperformed the best monocultures for water capture, evapotranspiration, and an index combining both water capture and temperature reductions. Combinations of tall forbs, grasses and succulents simultaneously optimized a range of ecosystem performance measures, thus the main benefit of including all three groups was not to maximize any single process but to perform a variety of functions well. Conclusions/Significance Ecosystem services from green roofs can be improved by planting certain life-form groups in combination, directly contributing to climate change mitigation and adaptation strategies. The strong performance by certain mixtures of life-forms, especially tall forbs, grasses and succulents, warrants further investigation into niche complementarity or facilitation as mechanisms governing biodiversity-ecosystem functioning relationships in green roof ecosystems.

Published

2010

26. Within and between whorls: comparative transcriptional profiling of Aquilegia and Arabidopsis

Author

Justin O. Borevitz, Scott A. Hodges, Elena M. Kramer, and Claudia Voelckel

Subjects

0106 biological sciences, DNA, Complementary, Aquilegia, Science, Arabidopsis, Library science, Evolutionary Biology/Evolutionary Ecology, Plant Biology/Plant-Environment Interactions, Flowers, 01 natural sciences, Genetics and Genomics/Plant Genetics and Gene Expression, Evolution, Molecular, Plant Biology/Plant Genetics and Gene Expression, 03 medical and health sciences, Gene Expression Regulation, Plant, Evolutionary Biology/Genomics, DNA Primers, Oligonucleotide Array Sequence Analysis, 030304 developmental biology, Expressed Sequence Tags, Genetics, 0303 health sciences, Multidisciplinary, biology, Evolutionary Biology/Plant Genetics and Gene Expression, Gene Expression Profiling, Ecology/Plant-Environment Interactions, Cell Cycle, fungi, Nucleic Acid Hybridization, food and beverages, Genetics and Genomics/Gene Expression, 15. Life on land, Plant biology, biology.organism_classification, Medicine, Research Article, 010606 plant biology & botany

Abstract

BackgroundThe genus Aquilegia is an emerging model system in plant evolutionary biology predominantly because of its wide variation in floral traits and associated floral ecology. The anatomy of the Aquilegia flower is also very distinct. There are two whorls of petaloid organs, the outer whorl of sepals and the second whorl of petals that form nectar spurs, as well as a recently evolved fifth whorl of staminodia inserted between stamens and carpels.Methodology/principal findingsWe designed an oligonucleotide microarray based on EST sequences from a mixed tissue, normalized cDNA library of an A. formosa x A. pubescens F2 population representing 17,246 unigenes. We then used this array to analyze floral gene expression in late pre-anthesis stage floral organs from a natural A. formosa population. In particular, we tested for gene expression patterns specific to each floral whorl and to combinations of whorls that correspond to traditional and modified ABC model groupings. Similar analyses were performed on gene expression data of Arabidopsis thaliana whorls previously obtained using the Ath1 gene chips (data available through The Arabidopsis Information Resource).Conclusions/significanceOur comparative gene expression analyses suggest that 1) petaloid sepals and petals of A. formosa share gene expression patterns more than either have organ-specific patterns, 2) petals of A. formosa and A. thaliana may be independently derived, 3) staminodia express B and C genes similar to stamens but the staminodium genetic program has also converged on aspects of the carpel program and 4) staminodia have unique up-regulation of regulatory genes and genes that have been implicated with defense against microbial infection and herbivory. Our study also highlights the value of comparative gene expression profiling and the Aquilegia microarray in particular for the study of floral evolution and ecology.

Published

2010

27. Testing the hypothesis of fire use for ecosystem management by neanderthal and upper palaeolithic modern human populations

Author

Anne-Laure Daniau, Maria Fernanda Sanchez Goñi, Francesco d'Errico, Environnements et Paléoenvironnements OCéaniques (EPOC), Observatoire aquitain des sciences de l'univers (OASU), Université Sciences et Technologies - Bordeaux 1-Institut national des sciences de l'Univers (INSU - CNRS)-Centre National de la Recherche Scientifique (CNRS)-Université Sciences et Technologies - Bordeaux 1-Institut national des sciences de l'Univers (INSU - CNRS)-Centre National de la Recherche Scientifique (CNRS)-École pratique des hautes études (EPHE), Université Paris sciences et lettres (PSL)-Université Paris sciences et lettres (PSL)-Centre National de la Recherche Scientifique (CNRS), De la Préhistoire à l'Actuel : Culture, Environnement et Anthropologie (PACEA), Université de Bordeaux (UB)-Centre National de la Recherche Scientifique (CNRS), and University of the Witwatersrand [Johannesburg] (WITS)

Subjects

Ecology/Global Change Ecology, 010506 paleontology, Conservation of Natural Resources, Neanderthal, Time Factors, 010504 meteorology & atmospheric sciences, Climate, lcsh:Medicine, Biology, 01 natural sciences, Natural (archaeology), Fires, biology.animal, Animals, Humans, Ecosystem, Biomass, lcsh:Science, Asia, Southeastern, 0105 earth and related environmental sciences, Biomass (ecology), Multidisciplinary, Ecology, Ecology/Plant-Environment Interactions, lcsh:R, Australia, Hominidae, 15. Life on land, Biological Evolution, Colonisation, Europe, Evolutionary Biology/Human Evolution, Archaeology, 13. Climate action, Paleoanthropology, Charcoal, Africa, Paleoecology, Ecosystem management, lcsh:Q, Ecology/Ecosystem Ecology, [SDU.STU.PG]Sciences of the Universe [physics]/Earth Sciences/Paleontology, Research Article

Abstract

International audience; Background: It has been proposed that a greater control and more extensive use of fire was one of the behavioral innovations that emerged in Africa among early Modern Humans, favouring their spread throughout the world and determining their eventual evolutionary success. We would expect, if extensive fire use for ecosystem management were a component of the modern human technical and cognitive package, as suggested for Australia, to find major disturbances in the natural biomass burning variability associated with the colonisation of Europe by Modern Humans.Methodology/Principal Findings: Analyses of microcharcoal preserved in two deep-sea cores located off Iberia and France were used to reconstruct changes in biomass burning between 70 and 10 kyr cal BP. Results indicate that fire regime follows the Dansgaard-Oeschger climatic variability and its impacts on fuel load. No major disturbance in natural fire regime variability is observed at the time of the arrival of Modern Humans in Europe or during the remainder of the Upper Palaeolithic (40-10 kyr cal BP).Conclusions/Significance: Results indicate that either Neanderthals and Modern humans did not influence fire regime or that, if they did, their respective influence was comparable at a regional scale, and not as pronounced as that observed in the biomass burning history of Southeast Asia.

Published

2010

28. An Extensive Alien Plant Inventory from the Inhabited Areas of Galapagos

Author

Anne Guezou, Mandy Trueman, Rachel Atkinson, Susana Chamorro, Ana Mireya Guerrero, Christopher E. Buddenhagen, Paola Pozo, and Traveset, Anna

Subjects

Vascular plant, Flora, Statistics::Theory, Population Dynamics, Computer Science::Neural and Evolutionary Computation, lcsh:Medicine, Introduced species, Alien, Biology, Invasive species, Mathematics::Probability, Ecology/Conservation and Restoration Ecology, lcsh:Science, Ecosystem, geography, Multidisciplinary, geography.geographical_feature_category, Ecology, National park, Data Collection, Ecology/Plant-Environment Interactions, lcsh:R, Plants, biology.organism_classification, Habitat destruction, Archipelago, lcsh:Q, Ecuador, Research Article

Abstract

Anne Guézou et al..., Background Plant invasions are causing habitat degradation in Galapagos. Problems are concentrated on the four inhabited islands. Plants introduced to rural areas in the humid highlands and urban areas on the arid coast act as foci for invasion of the surrounding Galapagos National Park. Methodology/Principal Findings Here we present results of the most comprehensive inventory to date of alien vascular plants in the inhabited areas of Galapagos. The survey was conducted between 2002 and 2007, in 6031 properties (97% of the total) on Floreana, Isabela, San Cristobal and Santa Cruz Islands. In total 754 alien vascular plant taxa were recorded, representing 468 genera in 123 families. Dicotyledons represented 554 taxa, monocotyledons 183, there were 7 gymnosperms and 10 pteridophytes. Almost half (363) of the taxa were herbaceous. The most represented families were Fabaceae (sensu lato), Asteraceae and Poaceae. The three most recorded species in the humid rural areas were Psidium guajava, Passiflora edulis and Bryophyllum pinnatum, and in the dry urban areas, Aloe vera, Portulaca oleracea and Carica papaya. In total, 264 (35%) taxa were recorded as naturalized. The most common use for taxa was ornamental (52%). Conclusions/Significance This extensive survey has increased the known alien vascular flora of Galapagos by 257 species, giving a ratio of alien to native taxa of 1.57:1. It provides a crucial baseline for plant invasion management in the archipelago and contributes data for meta analyses of invasion processes worldwide. A repeat of the survey in the future would act as an effective early detection tool to help avoid further invasion of the Galapagos National Park., This work was accomplished with the support of Project ECU/00/G31 “Control of Invasive Species in the Galapagos Archipelago”, a donation from the Global Environment Facility (GEF) to the Ecuadorian Government, represented by the Ministry of Environment. The Project was implemented by the United Nations Development Programme (UNDP) and was executed by the Galapagos National Park Service (GNPS), Charles Darwin Foundation (CDF), National Institute for Galapagos (INGALA) and Ecuadorian Service for Agriculture and Livestock Sanitation - Galapagos (SESA-Galapagos). Additional financial support was provided by TAME Airlines, Galapagos Conservation Trust and Galapagos Conservancy. The funders had no role in study design, data collection and analysis, decision to publish, or preparation of the manuscript. SWCA is included in the article because it relates to Christopher Buddenhagen's current place of employment, but SWCA did not fund any of the work and does not have any relation with the submitted article. C. Buddenhagen was employed by the Charles Darwin Foundation at the time of the inventory, and any subsequent work in relation with the submitted article was done on his own personal time.

Published

2010

29. Fungal-Mediated Multitrophic Interactions : Do Grass Endophytes in Diet Protect Voles from Predators?

Author

Hannu Ylönen, Kari Saikkonen, Susanna Saari, Marjo Helander, Janne Sundell, Otso Huitu, Elise Ketoja, and Lammi Biological Station

Subjects

Male, 0106 biological sciences, lcsh:Medicine, 01 natural sciences, Endophyte, Population density, Predation, lcsh:Science, POPULATION, RISK, education.field_of_study, Multidisciplinary, biology, Arvicolinae, Ecology, Ecology/Plant-Environment Interactions, food and beverages, WEASELS, Neotyphodium, Smell, COMMUNITY, Female, Research Article, Plant Biology/Plant-Biotic Interactions, Population, education, Poaceae, ECOLOGY, 010603 evolutionary biology, Food Preferences, Sex Factors, Animals, Ecology/Behavioral Ecology, PLANT, Ecosystem, Herbivore, Models, Statistical, Body Weight, lcsh:R, CONSUMPTION, Feeding Behavior, 15. Life on land, PERFORMANCE, biology.organism_classification, Predatory Behavior, lcsh:Q, 010606 plant biology & botany

Abstract

Plant-associated micro-organisms such as mycotoxin-producing endophytes commonly have direct negative effects on herbivores. These effects may be carried over to natural enemies of the herbivores, but this has been rarely explored. We examined how feeding on Neotyphodium endophyte infected (E+) and endophyte free (E−) meadow ryegrass (Scherodonus pratensis) affects body mass, population size and mobility of sibling voles (Microtus levis), and whether the diet mediates the vulnerability of voles to least weasel (Mustela nivalis nivalis) predation. Because least weasels are known to be olfactory hunters, we also examined whether they are able to distinguish olfactory cues of voles fed on E+ and E− diets. Neither body mass of voles nor population size differed between diets. However, contrary to our prediction, least weasels preyed more often on voles fed with E− grass than on voles fed with E+ grass. The mobility of voles fed on E+ grass was reduced compared to voles fed on E− grass, but this effect was unrelated to risk of predation. Least weasels appeared unable to distinguish between excrement odours of voles between the two treatments. Our results suggest that consumption of endophytic grass is not directly deleterious to sibling voles. What's more, consumption of endophytes appears to be advantageous to voles by reducing risk of mammalian predation. Our study is thus the first to demonstrate an effect of plant-associated microbial symbionts on herbivore-predator interactions in vertebrate communities.

Published

2010

30. Metal hyperaccumulation armors plants against disease

Author

Helen N. Fones, Gail M. Preston, Fang Fang, Calum A. R. Davis, J. Andrew C. Smith, and Arantza Rico

Subjects

DNA, Bacterial, lcsh:Immunologic diseases. Allergy, Blotting, Western, Immunology, Pseudomonas syringae, Plant Biology/Plant-Environment Interactions, Plant disease resistance, Polymerase Chain Reaction, Microbiology, Soil, Nickel, Virology, Botany, Genetics, Plant defense against herbivory, Microbiology/Environmental Microbiology, Hyperaccumulator, lcsh:QH301-705.5, Molecular Biology, Plant Diseases, biology, Ecology/Plant-Environment Interactions, Plant Sciences, fungi, food and beverages, Drug Tolerance, biology.organism_classification, Thlaspi, Plant Leaves, Crucifer, Zinc, lcsh:Biology (General), Mutagenesis, Shoot, DNA Transposable Elements, Microbiology/Microbial Physiology and Metabolism, Parasitology, lcsh:RC581-607, Ecology/Environmental Microbiology, Cadmium, Research Article, Plant Biology/Plant-Biotic Interactions, Thlaspi caerulescens

Abstract

Metal hyperaccumulation, in which plants store exceptional concentrations of metals in their shoots, is an unusual trait whose evolutionary and ecological significance has prompted extensive debate. Hyperaccumulator plants are usually found on metalliferous soils, and it has been proposed that hyperaccumulation provides a defense against herbivores and pathogens, an idea termed the ‘elemental defense’ hypothesis. We have investigated this hypothesis using the crucifer Thlaspi caerulescens, a hyperaccumulator of zinc, nickel, and cadmium, and the bacterial pathogen Pseudomonas syringae pv. maculicola (Psm). Using leaf inoculation assays, we have shown that hyperaccumulation of any of the three metals inhibits growth of Psm in planta. Metal concentrations in the bulk leaf and in the apoplast, through which the pathogen invades the leaf, were shown to be sufficient to account for the defensive effect by comparison with in vitro dose–response curves. Further, mutants of Psm with increased and decreased zinc tolerance created by transposon insertion had either enhanced or reduced ability, respectively, to grow in high-zinc plants, indicating that the metal affects the pathogen directly. Finally, we have shown that bacteria naturally colonizing T. caerulescens leaves at the site of a former lead–zinc mine have high zinc tolerance compared with bacteria isolated from non-accumulating plants, suggesting local adaptation to high metal. These results demonstrate that the disease resistance observed in metal-exposed T. caerulescens can be attributed to a direct effect of metal hyperaccumulation, which may thus be functionally analogous to the resistance conferred by antimicrobial metabolites in non-accumulating plants., Author Summary Soils rich in heavy metals support communities of distinctive metal-tolerant plants, a number of which exhibit a remarkable trait known as metal hyperaccumulation. These plants accumulate exceptionally high concentrations of metallic elements in their leaves, but whether this trait confers any adaptive advantage is controversial. In this study, we test the hypothesis that metal hyperaccumulation provides protection against disease. We demonstrate that Thlaspi caerulescens becomes resistant to bacterial leaf spot caused by Pseudomonas syringae pv. maculicola (Psm) when it accumulates zinc, nickel, or cadmium, and show that the metal concentrations in these plants are sufficient to account for their observed disease resistance. We also show that there is a close correlation between the zinc tolerance of different strains of Psm and their ability to colonize T. caerulescens leaves with high zinc content. In a field study, bacteria isolated from the leaves of T. caerulescens plants growing on the site of a former lead–zinc mine were found to possess a higher degree of metal tolerance than bacteria isolated from crop plants. Our findings show that metal hyperaccumulation in plants can act as a mechanism to prevent attack by pathogenic microorganisms, but that metal tolerant pathogens can overcome this defense.

Published

2010

31. Refuge or Reservoir? The Potential Impacts of the Biofuel Crop Miscanthus x giganteus on a Major Pest of Maize

Author

Joseph L. Spencer and S. Raghu

Subjects

Agroecosystem, Ecology/Global Change Ecology, Crops, Agricultural, Male, Insecta, Science Policy, Oviposition, lcsh:Medicine, Plant Biology, Poaceae, Zea mays, Crop, Animals, Marginal land, Biomass, lcsh:Science, Pest Control, Biological, Crosses, Genetic, Life Cycle Stages, Multidisciplinary, biology, business.industry, lcsh:R, Ecology/Plant-Environment Interactions, Pest control, Miscanthus, Crop rotation, biology.organism_classification, Western corn rootworm, Agronomy, Biofuels, lcsh:Q, Female, business, Research Article

Abstract

Background Interest in the cultivation of biomass crops like the C4 grass Miscanthus x giganteus (Miscanthus) is increasing as global demand for biofuel grows. In the US, Miscanthus is promoted as a crop well-suited to the Corn Belt where it could be cultivated on marginal land interposed with maize and soybean. Interactions (direct and indirect) of Miscanthus, maize, and the major Corn Belt pest of maize, the western corn rootworm, (Diabrotica virgifera virgifera LeConte, WCR) are unknown. Adding a perennial grass/biomass crop to this system is concerning since WCR is adapted to the continuous availability of its grass host, maize (Zea mays). Methodology/Principal Findings In a greenhouse and field study, we investigated WCR development and oviposition on Miscanthus. The suitability of Miscanthus for WCR development varied across different WCR populations. Data trends indicate that WCR populations that express behavioural resistance to crop rotation performed as well on Miscanthus as on maize. Over the entire study, total adult WCR emergence from Miscanthus (212 WCR) was 29.6% of that from maize (717 WCR). Adult dry weight was 75–80% that of WCR from maize; female emergence patterns on Miscanthus were similar to females developing on maize. There was no difference in the mean no. of WCR eggs laid at the base of Miscanthus and maize in the field. Conclusions/Significance Field oviposition and significant WCR emergence from Miscanthus raises many questions about the nature of likely interactions between Miscanthus, maize and WCR and the potential for Miscanthus to act as a refuge or reservoir for Corn Belt WCR. Responsible consideration of the benefits and risks associated with Corn Belt Miscanthus are critical to protecting an agroecosystem that we depend on for food, feed, and increasingly, fuel. Implications for European agroecosystems in which Miscanthus is being proposed are also discussed in light of the WCR's recent invasion into Europe.

Published

2009

32. Reciprocal subsidies and food web pathways leading to chum salmon fry in a temperate marine-terrestrial ecotone

Author

Tamara N. Romanuk and Colin D. Levings

Subjects

0106 biological sciences, Food Chain, lcsh:Medicine, Marine Biology, Biology, 010603 evolutionary biology, 01 natural sciences, Supralittoral zone, Ecology/Marine and Freshwater Ecology, Food chain, Animals, 14. Life underwater, lcsh:Science, Muscle, Skeletal, Ecosystem, Trophic level, Isotope analysis, Marine biology, geography, Multidisciplinary, geography.geographical_feature_category, Ecology, 010604 marine biology & hydrobiology, lcsh:R, Ecology/Plant-Environment Interactions, Estuary, biology.organism_classification, Invertebrates, Food web, Carbon, Fishery, Oncorhynchus keta, 13. Climate action, Ecology/Spatial and Landscape Ecology, Oncorhynchus, lcsh:Q, Ecology/Ecosystem Ecology, Research Article

Abstract

Stable isotope analysis was used to determine the relative proportions of terrestrial and marine subsidies of carbon to invertebrates along a tidal gradient (low-intertidal, mid-intertidal, high-intertidal, supralittoral) and to determine the relative importance of terrestrial carbon in food web pathways leading to chum salmon fry Oncorhynchus keta (Walbaum) in Howe Sound, British Columbia. We found a clear gradient in the proportion of terrestrially derived carbon along the tidal gradient ranging from 68% across all invertebrate taxa in the supralittoral to 25% in the high-intertidal, 20% in the mid-intertidal, and 12% in the low-intertidal. Stable isotope values of chum salmon fry indicated carbon contributions from both terrestrial and marine sources, with terrestrially derived carbon ranging from 12.8 to 61.5% in the muscle tissue of chum salmon fry (mean 30%). Our results provide evidence for reciprocal subsidies of marine and terrestrially derived carbon on beaches in the estuary and suggest that the vegetated supralittoral is an important trophic link in supplying terrestrial carbon to nearshore food webs.

Published

2009

33. Fruit and soil quality of organic and conventional strawberry agroecosystems

Author

J. Richard Alldredge, Neal M. Davies, Lynne Carpenter-Boggs, Jizhong Zhou, John P. Reganold, Christopher W. Schadt, Carolyn F. Ross, Jennifer R. Reeve, and Preston K. Andrews

Subjects

Food industry, Nitrogen, Organoleptic, lcsh:Medicine, Plant Biology/Plant-Environment Interactions, Biology, Shelf life, Fragaria, Soil, lcsh:Science, Organic Agriculture, Multidisciplinary, business.industry, Plant Extracts, lcsh:R, Ecology/Plant-Environment Interactions, Agriculture, Ascorbic acid, Soil quality, Carbon, Agronomy, Fruit, Organic farming, lcsh:Q, business, Food quality, Ecology/Environmental Microbiology, Research Article

Abstract

Background Sale of organic foods is one of the fastest growing market segments within the global food industry. People often buy organic food because they believe organic farms produce more nutritious and better tasting food from healthier soils. Here we tested if there are significant differences in fruit and soil quality from 13 pairs of commercial organic and conventional strawberry agroecosystems in California. Methodology/Principal Findings At multiple sampling times for two years, we evaluated three varieties of strawberries for mineral elements, shelf life, phytochemical composition, and organoleptic properties. We also analyzed traditional soil properties and soil DNA using microarray technology. We found that the organic farms had strawberries with longer shelf life, greater dry matter, and higher antioxidant activity and concentrations of ascorbic acid and phenolic compounds, but lower concentrations of phosphorus and potassium. In one variety, sensory panels judged organic strawberries to be sweeter and have better flavor, overall acceptance, and appearance than their conventional counterparts. We also found the organically farmed soils to have more total carbon and nitrogen, greater microbial biomass and activity, and higher concentrations of micronutrients. Organically farmed soils also exhibited greater numbers of endemic genes and greater functional gene abundance and diversity for several biogeochemical processes, such as nitrogen fixation and pesticide degradation. Conclusions/Significance Our findings show that the organic strawberry farms produced higher quality fruit and that their higher quality soils may have greater microbial functional capability and resilience to stress. These findings justify additional investigations aimed at detecting and quantifying such effects and their interactions.

Published

2009

34. Sex-related differences in reproductive allocation, growth, defense and herbivory in three dioecious neotropical palms

Author

V. Cepeda-Cornejo and Rodolfo Dirzo

Subjects

media_common.quotation_subject, lcsh:Medicine, Arecaceae, Biology, Plant reproduction, Plant Biology/Plant Growth and Development, Chamaedorea, Sex Factors, Species Specificity, Ecology/Evolutionary Ecology, Plant defense against herbivory, Biomass, lcsh:Science, Mexico, Plant Physiological Phenomena, media_common, Herbivore, Biomass (ecology), Analysis of Variance, Multidisciplinary, Ecology, Reproduction, lcsh:R, fungi, Ecology/Plant-Environment Interactions, food and beverages, Biodiversity, biology.organism_classification, Regression Analysis, lcsh:Q, Seasons, Plant tolerance to herbivory, Research Article

Abstract

Background Frequently, in dioecious plants, female plants allocate more resources to reproduction than male plants. Therefore it is expected that asymmetrical allocation to reproduction may lead to a reproduction-growth tradeoff, whereby female plants grow less than male plants, but invest more in defenses and thus experience lower herbivory than male plants. Methodology/Principal Findings We tested these expectations by comparing resource allocation to reproduction, growth and defense and its consequences on herbivory in three sympatric dioecious Chamaedorea palms (C. alternans, C. pinnatifrons and C. ernesti-augusti) using a pair-wise design (replicated male/female neighboring plants) in a Mexican tropical rain forest. Our findings support the predictions. Biomass allocation to reproduction in C. pinnatifrons was 3-times higher in female than male plants, consistent with what is known in C. alternans and C. ernesti-augusti. Growth (height and leaf production rate and biomass production) was higher in male plants of all three species. Female plants of the three species had traits that suggest greater investment in defense, as they had 4–16% tougher leaves, and 8–18% higher total phenolic compounds concentration. Accordingly, female plants sustained 53–78% lower standing herbivory and 49–87% lower herbivory rates than male plants. Conclusions/Significance Our results suggests that resource allocation to reproduction in the studied palms is more costly to female plants and this leads to predictable intersexual differences in growth, defense and herbivory. We conclude that resource allocation to reproduction in plants can have important consequences that influence their interaction with herbivores. Since herbivory is recognized as an important selective force in plants, these results are of significance to our understanding of plant defense evolution.

Published

2009

35. N-P co-limitation of primary production and response of arthropods to N and P in early primary succession on Mount St. Helens volcano

Author

Jennifer L. Apple, John G. Bishop, Niamh B. O'Hara, Louise Wynn, Jonathan H. Titus, and Richard A. Gill

Subjects

0106 biological sciences, Ecology/Community Ecology and Biodiversity, Nitrogen, Science, Biology, 010603 evolutionary biology, 01 natural sciences, Phosphates, Disasters, Botany, Animals, Primary succession, Arthropods, geography, Multidisciplinary, geography.geographical_feature_category, Ecology/Plant-Environment Interactions, 15. Life on land, Volcano, Ecology/Population Ecology, Medicine, Ecology/Ecosystem Ecology, 010606 plant biology & botany, Research Article

Abstract

BackgroundThe effect of low nutrient availability on plant-consumer interactions during early succession is poorly understood. The low productivity and complexity of primary successional communities are expected to limit diversity and abundance of arthropods, but few studies have examined arthropod responses to enhanced nutrient supply in this context. We investigated the effects of nitrogen (N) and phosphorus (P) addition on plant productivity and arthropod abundance on 24-yr-old soils at Mount St. Helens volcano.Methodology/principal findingsWe measured the relative abundance of eight arthropod orders and five families in plots that received N, P, or no nutrients for 3-5 years. We also measured plant % cover, leaf %N, and plant diversity. Vegetation responded rapidly to N addition but showed a lagged response to P that, combined with evidence of increased N fixation, suggested P-limitation to N availability. After 3 yrs of fertilization, orthopterans (primarily Anabrus simplex (Tettigoniidae) and Melanoplus spp (Acrididae)) showed a striking attraction to P addition plots, while no other taxa responded to fertilization. After 5 yrs of fertilization, orthopteran density in the same plots increased 80%-130% with P addition and 40% with N. Using structural equation modeling, we show that in year 3 orthopteran abundance was associated with a P-mediated increase in plant cover (or correlated increases in resource quality), whereas in year 5 orthopteran density was not related to cover, diversity or plant %N, but rather to unmeasured effects of P, such as its influence on other aspects of resource quality.Conclusions/significanceThe marked surprising response to P by orthopterans, combined with a previous observation of P-limitation in lepidopteran herbivores at these sites, suggests that P-mediated effects of food quantity or quality are critical to insect herbivores in this N-P co-limited primary successional system. Our results also support a previous suggestion that the availability of N in these soils is P-limited.

Published

2009

36. Successional change in phosphorus stoichiometry explains the inverse relationship between herbivory and lupin density on Mount St. Helens

Author

Shannon E. Wills, John G. Bishop, Jennifer L. Apple, and Michael Wink

Subjects

Ecophysiology, Male, Nitrogen, chemistry.chemical_element, lcsh:Medicine, Biology, Lupinus, Nutrient, Alkaloids, Botany, Animals, Humans, Photosynthesis, lcsh:Science, Ecosystem, Herbivore, Multidisciplinary, Ecology, Phosphorus, Ecology/Plant-Environment Interactions, fungi, lcsh:R, food and beverages, biology.organism_classification, Carbon, Nutrient content, Lepidoptera, Plant Leaves, chemistry, Agronomy, Ecology/Physiological Ecology, Larva, Regression Analysis, Female, lcsh:Q, Research Article

Abstract

Background The average nitrogen-to-phosphorus ratio (N∶P) of insect herbivores is less than that of leaves, suggesting that P may mediate plant-insect interactions more often than appreciated. We investigated whether succession-related heterogeneity in N and P stoichiometry influences herbivore performance on N-fixing lupin (Lupinus lepidus) colonizing primary successional volcanic surfaces, where the abundances of several specialist lepidopteran herbivores are inversely related to lupin density and are known to alter lupin colonization dynamics. We examined larval performance in response to leaf nutritional characteristics using gelechiid and pyralid leaf-tiers, and a noctuid leaf-cutter. Methodology/Principal Findings We conducted four studies. First, growth of larvae raised on wild-collected leaves responded positively to leaf %P and negatively to leaf carbon (%C), but there was no effect of %N or quinolizidine alkaloids (QAs). Noctuid survival was also positively related to %P. Second, we raised gelechiid larvae on greenhouse-grown lupins with factorial manipulation of competitors and soil N and P. In the presence of competition, larval mass was highest at intermediate leaf N∶P and high %P. Third, survival of gelechiid larvae placed on lupins in high-density patches was greater when plant competitors were removed than on controls. Fourth, surveys of field-collected leaves in 2000, 2002, and 2003 indicated that both %P and %N were generally greater in plants from low-density areas. QAs in plants from low-density areas were equal to or higher than QAs in high-density areas. Conclusions/Significance Our results demonstrate that declines in lupin P content under competitive conditions are associated with decreased larval growth and survival sufficient to cause the observed negative relationship between herbivore abundance and host density. The results support the theoretical finding that declines in stoichiometric resource quality (caused here by succession) have the potential to cause a decrease in consumer abundance despite very dense quantities of the resource.

Published

2009

37. Disease and the dynamics of food webs

Author

Wayne M. Getz

Subjects

0106 biological sciences, Ecology/Global Change Ecology, Food Chain, Ecology/Community Ecology and Biodiversity, QH301-705.5, Climate change, Disease, Biology, 010603 evolutionary biology, 01 natural sciences, Models, Biological, General Biochemistry, Genetics and Molecular Biology, Predation, Food chain, Animals, Ecosystem, Biology (General), 2. Zero hunger, Herbivore, General Immunology and Microbiology, Ecology, General Neuroscience, Ecology/Plant-Environment Interactions, Disease ecology, 15. Life on land, Plants, 010601 ecology, Multiple factors, Infectious Diseases, Ecology/Population Ecology, 13. Climate action, Africa, Ecology/Ecosystem Ecology, General Agricultural and Biological Sciences, Research Article

Abstract

The removal of rinderpest had cascading effects on herbivore populations, fire, tree density, and even ecosystem carbon in the Serengeti ecosystem of East Africa., Tree cover is a fundamental structural characteristic and driver of ecosystem processes in terrestrial ecosystems, and trees are a major global carbon (C) sink. Fire and herbivores have been hypothesized to play dominant roles in regulating trees in African savannas, but the evidence for this is conflicting. Moving up a trophic scale, the factors that regulate fire occurrence and herbivores, such as disease and predation, are poorly understood for any given ecosystem. We used a Bayesian state-space model to show that the wildebeest population irruption that followed disease (rinderpest) eradication in the Serengeti ecosystem of East Africa led to a widespread reduction in the extent of fire and an ongoing recovery of the tree population. This supports the hypothesis that disease has played a key role in the regulation of this ecosystem. We then link our state-space model with theoretical and empirical results quantifying the effects of grazing and fire on soil carbon to predict that this cascade may have led to important shifts in the size of pools of C stored in soil and biomass. Our results suggest that the dynamics of herbivores and fire are tightly coupled at landscape scales, that fire exerts clear top-down effects on tree density, and that disease outbreaks in dominant herbivores can lead to complex trophic cascades in savanna ecosystems. We propose that the long-term status of the Serengeti and other intensely grazed savannas as sources or sinks for C may be fundamentally linked to the control of disease outbreaks and poaching., Author Summary Diseases are known to play important roles in regulating and structuring populations, but the consequences of disease outbreaks for entire communities and ecosystems are not as well understood. The Serengeti wildebeest were historically kept at low numbers by the rinderpest virus, but underwent a population explosion (irruption) after rinderpest was eradicated in the 1960s. We examined nearly a half-century of data to test the hypothesis that this irruption was responsible for a decline in the frequency of fires in this ecosystem (through increased grazing and a reduction in fuel loads), and that this in turn increased the density of trees. We found strong evidence for this indirect link between rinderpest and tree density, and less support for the role of other factors such as elephants and climate. We also investigated the consequences of this chain of events for ecosystem carbon, and suggest that the combined effects of increased grazing intensity by wildebeest, reduced fire, and increasing tree density may have shifted the Serengeti from being a net source to a net sink for carbon. This would imply that seemingly small ecological perturbations such as disease outbreaks have the potential to profoundly affect ecosystem function.

Published

2009

38. Direct and indirect effects of climate change on a prairie plant community

Author

Peter B. Adler, James Leiker, Jonathan M. Levine, and Public Library of Science

Subjects

Ecology/Global Change Ecology, 0106 biological sciences, prairie plant community, Ecology/Community Ecology and Biodiversity, 010504 meteorology & atmospheric sciences, Climate, media_common.quotation_subject, Population, Ecology and Evolutionary Biology, Biodiversity, Growing season, lcsh:Medicine, Tiller (botany), Environment, Biology, Poaceae, 010603 evolutionary biology, 01 natural sciences, Competition (biology), Animals, Ecosystem, Biomass, education, lcsh:Science, 0105 earth and related environmental sciences, media_common, 2. Zero hunger, Biomass (ecology), education.field_of_study, Multidisciplinary, Ecology, Ecology/Plant-Environment Interactions, lcsh:R, Reproducibility of Results, Interspecific competition, Kansas, Models, Theoretical, Plants, 15. Life on land, climate change, Ecology/Population Ecology, Agronomy, 13. Climate action, direct/indirect effects, lcsh:Q, Research Article, Environmental Monitoring

Abstract

Background Climate change directly affects species by altering their physical environment and indirectly affects species by altering interspecific interactions such as predation and competition. Recent studies have shown that the indirect effects of climate change may amplify or counteract the direct effects. However, little is known about the the relative strength of direct and indirect effects or their potential to impact population persistence. Methodology/Principal Findings We studied the effects of altered precipitation and interspecific interactions on the low-density tiller growth rates and biomass production of three perennial grass species in a Kansas, USA mixed prairie. We transplanted plugs of each species into local neighborhoods of heterospecific competitors and then exposed the plugs to a factorial manipulation of growing season precipitation and neighbor removal. Precipitation treatments had significant direct effects on two of the three species. Interspecific competition also had strong effects, reducing low-density tiller growth rates and aboveground biomass production for all three species. In fact, in the presence of competitors, (log) tiller growth rates were close to or below zero for all three species. However, we found no convincing evidence that per capita competitive effects changed with precipitation, as shown by a lack of significant precipitation × competition interactions. Conclusions/Significance We found little evidence that altered precipitation will influence per capita competitive effects. However, based on species' very low growth rates in the presence of competitors in some precipitation treatments, interspecific interactions appear strong enough to affect the balance between population persistence and local extinction. Therefore, ecological forecasting models should include the effect of interspecific interactions on population growth, even if such interaction coefficients are treated as constants.

Published

2009

39. The Pitcher Plant Sarracenia purpurea Can Directly Acquire Organic Nitrogen and Short-Circuit the Inorganic Nitrogen Cycle

Author

Jim D. Karagatzides, Jessica L. Butler, and Aaron M. Ellison

Subjects

0106 biological sciences, Denitrification, Reactive nitrogen, Nitrogen, Nitrogen assimilation, chemistry.chemical_element, lcsh:Medicine, Plant Biology/Plant-Environment Interactions, Sarracenia purpurea, 010603 evolutionary biology, 01 natural sciences, Plant Biology/Plant Biochemistry and Physiology, 03 medical and health sciences, lcsh:Science, Nitrogen cycle, 030304 developmental biology, 2. Zero hunger, 0303 health sciences, Multidisciplinary, biology, Nitrogen deficiency, lcsh:R, fungi, Ecology/Plant-Environment Interactions, food and beverages, 15. Life on land, biology.organism_classification, chemistry, Agronomy, Ecology/Physiological Ecology, Sarraceniaceae, lcsh:Q, Ecology/Ecosystem Ecology, Plant nutrition, Research Article

Abstract

Background: Despite the large stocks of organic nitrogen in soil, nitrogen availability limits plant growth in many terrestrial ecosystems because most plants take up only inorganic nitrogen, not organic nitrogen. Although some vascular plants can assimilate organic nitrogen directly, only recently has organic nitrogen been found to contribute significantly to the nutrient budget of any plant. Carnivorous plants grow in extremely nutrient-poor environments and carnivory has evolved in these plants as an alternative pathway for obtaining nutrients. We tested if the carnivorous pitcher plant Sarracenia purpurea could directly take up intact amino acids in the field and compared uptake of organic and inorganic forms of nitrogen across a gradient of nitrogen deposition. We hypothesized that the contribution of organic nitrogen to the nitrogen budget of the pitcher plant would decline with increasing nitrogen deposition. Methodology and Principal Findings: At sites in Canada (low nitrogen deposition) and the United States (high nitrogen deposition), individual pitchers were fed two amino acids, glycine and phenylalanine, and inorganic nitrogen (as ammonium nitrate), individually and in mixture. Plants took up intact amino acids. Acquisition of each form of nitrogen provided in isolation exceeded uptake of the same form in mixture. At the high deposition site, uptake of organic nitrogen was higher than uptake of inorganic nitrogen. At the low deposition site, uptake of all three forms of nitrogen was similar. Completeness of the associated detritus-based food web that inhabits pitcher-plant leaves and breaks down captured prey had no effect on nitrogen uptake. Conclusions and Significance: By taking up intact amino acids, Sarracenia purpurea can short-circuit the inorganic nitrogen cycle, thus minimizing potential bottlenecks in nitrogen availability that result from the plant’s reliance for nitrogen mineralization on a seasonally reconstructed food web operating on infrequent and irregular prey capture.

Published

2009

40. No detectable maternal effects of elevated CO(2) on Arabidopsis thaliana over 15 generations

Author

Biao Jin, Nianjun Teng, Tingyun Kuang, Jinxing Lin, Huaiqing Hao, Reinhart Ceulemans, and Qinli Wang

Subjects

Ecology/Global Change Ecology, Stomatal conductance, Chloroplasts, Time Factors, Offspring, Arabidopsis, lcsh:Medicine, Flowers, Environment, Genes, Plant, Models, Biological, Animal science, Genetic variation, Botany, Arabidopsis thaliana, Photosynthesis, lcsh:Science, Biology, Plant Physiological Phenomena, Transpiration, Multidisciplinary, biology, Ecology/Plant-Environment Interactions, lcsh:R, Maternal effect, food and beverages, Plant Transpiration, Carbon Dioxide, biology.organism_classification, Droughts, Plant Leaves, Ecology/Physiological Ecology, Seeds, lcsh:Q, Silique, Research Article

Abstract

Maternal environment has been demonstrated to produce considerable impact on offspring growth. However, few studies have been carried out to investigate multi-generational maternal effects of elevated CO(2) on plant growth and development. Here we present the first report on the responses of plant reproductive, photosynthetic, and cellular characteristics to elevated CO(2) over 15 generations using Arabidopsis thaliana as a model system. We found that within an individual generation, elevated CO(2) significantly advanced plant flowering, increased photosynthetic rate, increased the size and number of starch grains per chloroplast, reduced stomatal density, stomatal conductance, and transpiration rate, and resulted in a higher reproductive mass. Elevated CO(2) did not significantly influence silique length and number of seeds per silique. Across 15 generations grown at elevated CO(2) concentrations, however, there were no significant differences in these traits. In addition, a reciprocal sowing experiment demonstrated that elevated CO(2) did not produce detectable maternal effects on the offspring after fifteen generations. Taken together, these results suggested that the maternal effects of elevated CO(2) failed to extend to the offspring due to the potential lack of genetic variation for CO(2) responsiveness, and future plants may not evolve specific adaptations to elevated CO(2) concentrations.

Published

2009

41. Dispersal of transgenes through maize seed systems in Mexico

Author

George A. Dyer, J. Antonio Serratos-Hernández, Antonio Yunez-Naude, Angeles Chávez, J. Edward Taylor, Elena R. Alvarez-Buylla, Alma Piñeyro-Nelson, Hugo Perales, Paul Gepts, Noé Salinas-Arreortua, and El-Shemy, Hany A

Subjects

Germplasm, General Science & Technology, Seed dispersal, Science, Population, Population Dynamics, Genetically Modified, Biology, medicine.disease_cause, Zea mays, Gene flow, Crop, Diffusion, Pollen, medicine, Plant breeding, Transgenes, education, Biotechnology/Plant Biotechnology, Mexico, Plant Proteins, education.field_of_study, Multidisciplinary, Geography, business.industry, Altitude, Ecology/Plant-Environment Interactions, food and beverages, Plants, Plants, Genetically Modified, Biotechnology, Agronomy, Seeds, Biological dispersal, Plant Biology/Agricultural Biotechnology, Medicine, business, Research Article

Abstract

ObjectivesCurrent models of transgene dispersal focus on gene flow via pollen while neglecting seed, a vital vehicle for gene flow in centers of crop origin and diversity. We analyze the dispersal of maize transgenes via seeds in Mexico, the crop's cradle.MethodsWe use immunoassays (ELISA) to screen for the activity of recombinant proteins in a nationwide sample of farmer seed stocks. We estimate critical parameters of seed population dynamics using household survey data and combine these estimates with analytical results to examine presumed sources and mechanisms of dispersal.ResultsRecombinant proteins Cry1Ab/Ac and CP4/EPSPS were found in 3.1% and 1.8% of samples, respectively. They are most abundant in southeast Mexico but also present in the west-central region. Diffusion of seed and grain imported from the United States might explain the frequency and distribution of transgenes in west-central Mexico but not in the southeast.ConclusionsUnderstanding the potential for transgene survival and dispersal should help design methods to regulate the diffusion of germplasm into local seed stocks. Further research is needed on the interactions between formal and informal seed systems and grain markets in centers of crop origin and diversification.

Published

2009

42. Indian Bt cotton varieties do not affect the performance of cotton aphids

Author

Jörg Romeis, Felix L. Wäckers, and N.C. Lawo

Subjects

Honeydew, Ecology/Community Ecology and Biodiversity, Bacillus thuringiensis, lcsh:Medicine, Plant Biology/Plant-Environment Interactions, Host-Parasite Interactions, Aphis gossypii, Animals, lcsh:Science, Biotechnology/Plant Biotechnology, Gossypium, Aphid, Multidisciplinary, biology, lcsh:R, Ecology/Plant-Environment Interactions, Aphididae, Feeding Behavior, biology.organism_classification, Agronomy, Cry1Ac, Bt cotton, Aphids, Plant Biology/Agricultural Biotechnology, lcsh:Q, Energy source, Research Article

Abstract

Cotton varieties expressing Cry proteins derived from the soil bacterium Bacillus thuringiensis (Bt) are grown worldwide for the management of pest Lepidoptera. To prevent non-target pest outbreaks and to retain the biological control function provided by predators and parasitoids, the potential risk that Bt crops may pose to non-target arthropods is addressed prior to their commercialization. Aphids play an important role in agricultural systems since they serve as prey or host to a number of predators and parasitoids and their honeydew is an important energy source for several arthropods. To explore possible indirect effects of Bt crops we here examined the impact of Bt cotton on aphids and their honeydew. In climate chambers we assessed the performance of cotton aphids, Aphis gossypii Glover (Hemiptera: Aphididae) when grown on three Indian Bt (Cry1Ac) cotton varieties (MECH 12, MECH 162, MECH 184) and their non-transformed near isolines. Furthermore, we examined whether aphids pick up the Bt protein and analyzed the sugar composition of aphid honeydew to evaluate its suitability for honeydew-feeders. Plant transformation did not have any influence on aphid performance. However, some variation was observed among the three cotton varieties which might partly be explained by the variation in trichome density. None of the aphid samples contained Bt protein. As a consequence, natural enemies that feed on aphids are not exposed to the Cry protein. A significant difference in the sugar composition of aphid honeydew was detected among cotton varieties as well as between transformed and non-transformed plants. However, it is questionable if this variation is of ecological relevance, especially as honeydew is not the only sugar source parasitoids feed on in cotton fields. Our study allows the conclusion that Bt cotton poses a negligible risk for aphid antagonists and that aphids should remain under natural control in Bt cotton fields.

Published

2009

43. Effects of global warming on ancient mammalian communities and their environments

Author

Larisa R.G. DeSantis, Bruce J. MacFadden, and Robert S. Feranec

Subjects

Greenhouse Effect, Ecology/Global Change Ecology, Evolutionary Biology/Paleontology, Ecology/Community Ecology and Biodiversity, Climate, Biodiversity, lcsh:Medicine, Climate change, Evolutionary Biology/Evolutionary Ecology, Biology, Environment, Oxygen Isotopes, Ecology/Evolutionary Ecology, Animals, Humans, lcsh:Science, Dental Enamel, Ecosystem, Phylogeny, Ecological niche, Mammals, Evolutionary Biology, Multidisciplinary, Extinction, Ecology, Fossils, lcsh:R, Global warming, Ecology/Plant-Environment Interactions, Niche differentiation, Extinction risk from global warming, Paleontology, Diet, Interglacial, lcsh:Q, Seasons, Ecology/Ecosystem Ecology, Research Article

Abstract

Background: Current global warming affects the composition and dynamics of mammalian communities and can increase extinction risk; however, long-term effects of warming on mammals are less understood. Dietary reconstructions inferred from stable isotopes of fossil herbivorous mammalian tooth enamel document environmental and climatic changes in ancient ecosystems, including C3/C4 transitions and relative seasonality. Methodology/Principal Findings: Here, we use stable carbon and oxygen isotopes preserved in fossil teeth to document the magnitude of mammalian dietary shifts and ancient floral change during geologically documented glacial and interglacial periods during the Pliocene (,1.9 million years ago) and Pleistocene (,1.3 million years ago) in Florida. Stable isotope data demonstrate increased aridity, increased C4 grass consumption, inter-faunal dietary partitioning, increased isotopic niche breadth of mixed feeders, niche partitioning of phylogenetically similar taxa, and differences in relative seasonality with warming. Conclusion/Significance: Our data show that global warming resulted in dramatic vegetation and dietary changes even at lower latitudes (,28uN). Our results also question the use of models that predict the long term decline and extinction of species based on the assumption that niches are conserved over time. These findings have immediate relevance to clarifying possible biotic responses to current global warming in modern ecosystems.

Published

2009

44. PHYTOCHROME B and HISTONE DEACETYLASE 6 control light-induced chromatin compaction in Arabidopsis thaliana

Author

Tessadori, F., van Zanten, M., Pavlova, P., Clifton, R., Pontvianne, F., Snoek, L.B., Millenaar, F.F., Schulkes, R.K., Driel, R., Voesenek, L.A.C.J., Spillane, C., Pikaard, C.S., Fransz, P.F., Peeters, A.J.M., Plant Ecophysiology, Sub Plant Ecophysiology, Sub Bioinformatics, Dep Biologie, Synthetic Systems Biology (SILS, FNWI), Plant Ecophysiology, Sub Plant Ecophysiology, Sub Bioinformatics, and Dep Biologie

Subjects

0106 biological sciences, Cancer Research, Light, h3 lysine-9, Arabidopsis, dna methylation, 01 natural sciences, Genetics and Genomics/Plant Genetics and Gene Expression, Plant Biology/Plant Biochemistry and Physiology, genome regulation, Gene Expression Regulation, Plant, Phytochrome B, circadian clock, Arabidopsis thaliana, Genetics (clinical), Molecular Biology/DNA Methylation, Genetics, 0303 health sciences, natural allelic variation, biology, EPS-4, Ecology/Plant-Environment Interactions, flowering time, Chromatin, Genetics and Genomics/Chromosome Biology, Histone, inbred line population, International, Laboratory of Genetics, genetic-variation, Genetics and Genomics/Gene Discovery, Research Article, lcsh:QH426-470, Heterochromatin, Plant Biology/Plant-Environment Interactions, Quantitative trait locus, Genetics and Genomics/Complex Traits, Laboratorium voor Erfelijkheidsleer, Molecular Biology/Histone Modification, Histone Deacetylases, Cape verde, 03 medical and health sciences, Genetics and Genomics/Epigenetics, Molecular Biology/Chromatin Structure, Molecular Biology, Laboratorium voor Nematologie, Ecology, Evolution, Behavior and Systematics, 030304 developmental biology, Arabidopsis Proteins, heterochromatin, biology.organism_classification, linkage map, Light intensity, lcsh:Genetics, biology.protein, Laboratory of Nematology, 010606 plant biology & botany

Abstract

Natural genetic variation in Arabidopsis thaliana exists for many traits and often reflects acclimation to local environments. Studying natural variation has proven valuable in the characterization of phenotypic traits and, in particular, in identifying genetic factors controlling these traits. It has been previously shown that chromatin compaction changes during development and biotic stress. To gain more insight into the genetic control of chromatin compaction, we investigated the nuclear phenotype of 21 selected Arabidopsis accessions from different geographic origins and habitats. We show natural variation in chromatin compaction and demonstrate a positive correlation with latitude of geographic origin. The level of compaction appeared to be dependent on light intensity. A novel approach, combining Quantitative Trait Locus (QTL) mapping and microscopic examination, pointed at PHYTOCHROME-B (PHYB) and HISTONE DEACETYLASE-6 (HDA6) as positive regulators of light-controlled chromatin compaction. Indeed, mutant analyses demonstrate that both factors affect global chromatin organization. HDA6, in addition, strongly promotes the light-mediated compaction of the Nucleolar Organizing Regions (NORs). The accession Cape Verde Islands-0 (Cvi-0), which shows sequence polymorphism in the PHYB gene and in the HDA6 promotor, resembles the hda6 mutant in having reduced chromatin compaction and decreased methylation levels of DNA and histone H3K9 at the NORs. We provide evidence that chromatin organization is controlled by light intensity. We propose that chromatin plasticity is associated with acclimation of Arabidopsis to its environment. The polymorphic alleles such as PHYB and HDA6 control this process., Author Summary The habitat of the plant model species Arabidopsis thaliana can be found throughout the Northern hemisphere. As a consequence, individual populations have acclimated to a great diversity of environmental conditions. This is reflected by a wealth of natural genetic variation in many phenotypic traits. We utilized this natural variation via a novel approach, combining microscopic examination, quantitative genetics, and analysis of environmental parameters, to understand the regulation of nuclear chromatin compaction in leaf mesophyll cells. We show that the level of chromatin compaction among natural Arabidopsis thaliana accessions correlates with latitude of origin and depends on local light intensity. Our study provides evidence that the photoreceptor PHYTOCHROME-B (PHYB) and the histone modifier HISTONE DEACETYLASE 6 (HDA6) are positive regulators of global chromatin organization in a light-dependent manner. In addition, HDA6 specifically controls light-mediated chromatin compaction of the Nucleolar Organizing Regions (NORs). We propose that the observed light-controlled plasticity of chromatin plays a role in acclimation and survival of plants in their natural environment.

Published

2009

45. Tree species traits influence soil physical, chemical, and biological properties in high elevation forests

Author

Matthew D. Wallenstein, Breana L. Simmons, Diana H. Wall, Edward Ayres, Sarah Berg, and Heidi Steltzer

Subjects

0106 biological sciences, Ecology/Community Ecology and Biodiversity, Colorado, Soil biology, lcsh:Medicine, Environment, Biology, Models, Biological, 010603 evolutionary biology, 01 natural sciences, complex mixtures, Trees, Soil respiration, Soil, Species Specificity, Biomass, lcsh:Science, Ecosystem, Multidisciplinary, Ecology, Ecology/Plant-Environment Interactions, fungi, lcsh:R, Temperature, Soil chemistry, Soil classification, 04 agricultural and veterinary sciences, Soil carbon, 15. Life on land, Plant litter, Carbon, Droughts, Plant Leaves, 13. Climate action, Soil water, 040103 agronomy & agriculture, 0401 agriculture, forestry, and fisheries, lcsh:Q, Species richness, Ecology/Ecosystem Ecology, Polymorphism, Restriction Fragment Length, Research Article

Abstract

Background: Previous studies have shown that plants often have species-specific effects on soil properties. In high elevation forests in the Southern Rocky Mountains, North America, areas that are dominated by a single tree species are often adjacent to areas dominated by another tree species. Here, we assessed soil properties beneath adjacent stands of trembling aspen, lodgepole pine, and Engelmann spruce, which are dominant tree species in this region and are distributed widely in North America. We hypothesized that soil properties would differ among stands dominated by different tree species and expected that aspen stands would have higher soil temperatures due to their open structure, which, combined with higher quality litter, would result in increased soil respiration rates, nitrogen availability, and microbial biomass, and differences in soil faunal community composition. Methodology/Principal Findings: We assessed soil physical, chemical, and biological properties at four sites where stands of aspen, pine, and spruce occurred in close proximity to one-another in the San Juan Mountains, Colorado. Leaf litter quality differed among the tree species, with the highest nitrogen (N) concentration and lowest lignin:N in aspen litter. Nitrogen concentration was similar in pine and spruce litter, but lignin:N was highest in pine litter. Soil temperature and moisture were highest in aspen stands, which, in combination with higher litter quality, probably contributed to faster soil respiration rates from stands of aspen. Soil carbon and N content, ammonium concentration, and microbial biomass did not differ among tree species, but nitrate concentration was highest in aspen soil and lowest in spruce soil. In addition, soil fungal, bacterial, and nematode community composition and rotifer, collembolan, and mesostigmatid mite abundance differed among the tree species, while the total abundance of nematodes, tardigrades, oribatid mites, and prostigmatid mites did not. Conclusions/Significance: Although some soil characteristics were unaffected by tree species identity, our results clearly demonstrate that these dominant tree species are associated with soils that differ in several physical, chemical, and biotic properties. Ongoing environmental changes in this region, e.g. changes in fire regime, frequency of insect outbreaks, changes in precipitation patterns and snowpack, and land-use change, may alter the relative abundance of these tree species over coming decades, which in turn will likely alter the soils.

Published

2009

46. A Pleistocene clone of Palmer's oak persisting in Southern California

Author

Norman C. Ellstrand, Jeffrey Ross-Ibarra, Michael R. May, Mitchell C Provance, and Andrew C. Sanders

Subjects

Time Factors, Pleistocene, Rain, Population Dynamics, Population, Plant Biology, lcsh:Medicine, Biology, Disjunct, California, Quercus, education, lcsh:Science, education.field_of_study, Multidisciplinary, Ecology, Geography, Ecology/Plant-Environment Interactions, lcsh:R, Temperature, Disjunct distribution, biology.organism_classification, Arid, Clone Cells, Habitat, Paleobotany, lcsh:Q, Research Article, Quercus palmeri

Abstract

Background: The distribution of Palmer’s oak (Quercus palmeri Engelm.) includes numerous isolated populations that are presumably relicts of a formerly larger range that has contracted due to spreading aridity following the end of the Pleistocene. Principal Findings: We investigated a recently discovered disjunct population of Palmer’s oak in the Jurupa Mountains of Riverside County, California. Patterns of allozyme polymorphism, morphological homogeneity, widespread fruit abortion, and evidence of fire resprouting all strongly support the hypothesis that the population is a single clone. The size of the clone and estimates of annual growth from multiple populations lead us to conclude that the clone is in excess of 13,000 years old. Conclusions: The ancient age of the clone implies it originated during the Pleistocene and is a relict of a vanished vegetation community. Range contraction after climate change best explains the modern disjunct distribution of Q. palmeri and perhaps other plants in California.

Published

2009

47. Short lag times for invasive tropical plants: evidence from experimental plantings in Hawai'i

Author

Curtis C. Daehler

Subjects

Time Factors, Lag, Population Dynamics, lcsh:Medicine, Introduced species, Plant Biology/Plant-Environment Interactions, Biology, Invasive species, Hawaii, Temperate climate, Ecosystem, lcsh:Science, Multidisciplinary, Ecology, lcsh:R, fungi, Ecology/Plant-Environment Interactions, food and beverages, Plants, Plant ecology, Habitat, Ecology/Population Ecology, lcsh:Q, Woody plant, Research Article

Abstract

Background The lag time of an invasion is the delay between arrival of an introduced species and its successful spread in a new area. To date, most estimates of lag times for plants have been indirect or anecdotal, and these estimates suggest that plant invasions are often characterized by lag times of 50 years or more. No general estimates are available of lag times for tropical plant invasions. Historical plantings and documentation were used to directly estimate lag times for tropical plant invasions in Hawai'i. Methodology/Principal Findings Historical planting records for the Lyon Arboretum dating back to 1920 were examined to identify plants that have since become invasive pests in the Hawaiian Islands. Annual reports describing escape from plantings were then used to determine the lag times between initial plantings and earliest recorded spread of the successful invaders. Among 23 species that eventually became invasive pests, the average lag time between introduction and first evidence of spread was 14 years for woody plants and 5 years for herbaceous plants. Conclusions/Significance These direct estimates of lag times are as much as an order of magnitude shorter than previous, indirect estimates, which were mainly based on temperate plants. Tropical invaders may have much shorter lag times than temperate species. A lack of direct and deliberate observations may have also inflated many previous lag time estimates. Although there have been documented cases of long lag times due to delayed arrival of a mutualist or environmental changes over time, this study suggests that most successful invasions are likely to begin shortly after arrival of the plant in a suitable habitat, at least in tropical environments. Short lag times suggest that controlled field trials may be a practical element of risk assessment for plant introductions.

Published

2008

48. Genetic networks controlling structural outcome of glucosinolate activation across development

Author

Zhiyong Zhang, Daniel J. Kliebenstein, Ian Boeye, Adam M. Wentzell, and Copenhaver, Gregory P

Subjects

0106 biological sciences, Cancer Research, Arabidopsis, 01 natural sciences, Biochemistry, Plant Biology/Plant Biochemistry and Physiology, chemistry.chemical_compound, Gene Expression Regulation, Plant, Gene cluster, Evolutionary Biology/Genomics, Genetics (clinical), Genetics, 0303 health sciences, Ecology/Plant-Environment Interactions, Phenotype, Ecology/Population Ecology, Research Article, Plant Biology/Plant-Biotic Interactions, Biotechnology, lcsh:QH426-470, Glucosinolates, Quantitative Trait Loci, Molecular Sequence Data, Biology, Quantitative trait locus, Crosses, Evolutionary Biology/Plant Genomes and Evolution, 03 medical and health sciences, Plant Biology/Plant Genetics and Gene Expression, Plant Biology/Plant Growth and Development, Quantitative Trait, Quantitative Trait, Heritable, Genetic, Genetic variation, Genetics and Genomics/Population Genetics, Molecular Biology, Heritable, Ecology, Evolution, Behavior and Systematics, Crosses, Genetic, 030304 developmental biology, Evolutionary Biology/Plant Genetics and Gene Expression, Arabidopsis Proteins, Human Genome, Epistasis, Genetic, Plant, Genetic architecture, lcsh:Genetics, chemistry, Plant Biology/Plant Genomes and Evolution, Gene Expression Regulation, Developmental Biology/Plant Growth and Development, Glucosinolate, Expression quantitative trait loci, Epistasis, 010606 plant biology & botany, Developmental Biology

Abstract

Most phenotypic variation present in natural populations is under polygenic control, largely determined by genetic variation at quantitative trait loci (QTLs). These genetic loci frequently interact with the environment, development, and each other, yet the importance of these interactions on the underlying genetic architecture of quantitative traits is not well characterized. To better study how epistasis and development may influence quantitative traits, we studied genetic variation in Arabidopsis glucosinolate activation using the moderately sized Bayreuth×Shahdara recombinant inbred population, in terms of number of lines. We identified QTLs for glucosinolate activation at three different developmental stages. Numerous QTLs showed developmental dependency, as well as a large epistatic network, centered on the previously cloned large-effect glucosinolate activation QTL, ESP. Analysis of Heterogeneous Inbred Families validated seven loci and all of the QTL×DPG (days post-germination) interactions tested, but was complicated by the extensive epistasis. A comparison of transcript accumulation data within 211 of these RILs showed an extensive overlap of gene expression QTLs for structural specifiers and their homologs with the identified glucosinolate activation loci. Finally, we were able to show that two of the QTLs are the result of whole-genome duplications of a glucosinolate activation gene cluster. These data reveal complex age-dependent regulation of structural outcomes and suggest that transcriptional regulation is associated with a significant portion of the underlying ontogenic variation and epistatic interactions in glucosinolate activation., Author Summary A principal interest in biology is to understand how natural genetic variation translates into phenotypic variation. A key component of this connection is how the genetic variation interacts with other sources of variation, such as environment (G×E), development (G×D), or other genetic loci (G×G or epistasis). To analyze the molecular underpinnings of these quantitative genetics interaction terms, we investigated the genetic architecture of an adaptive trait, glucosinolate activation, in Arabidopsis thaliana during the development of what is considered a static mature rosette. Variation in glucosinolate activation was principally controlled by epistatic and G×D interactions. Epistatic interactions identified both Mendelian epistasis, where regulatory loci controlled enzymatic loci, and quantitative interactions between regulatory loci. G×D appeared to involve master regulatory loci as determined by trans-eQTL hotspot analysis. Finally, two common glucosinolate activation QTLs appear to have evolved via gene loss and sub-functionalization following quadruplication of an ancestral genomic fragment, potentially by two whole-genome duplications. Thus, genomic duplication events may facilitate the formation of quantitative genetic variation. This study provides insights into the molecular basis of the link between genetic and phenotypic variation in a potentially adaptive trait.

Published

2008

49. Ubiquitous Water-Soluble Molecules in Aquatic Plant Exudates Determine Specific Insect Attraction

Author

John C. Willison, Guy Lempérière, Thierry Gaude, Stéphane Reynaud, Joëlle Patouraux, Julien Sérandour, Muriel Raveton, Patrick Ravanel, Laboratoire d'Ecologie Alpine (LECA), Université Joseph Fourier - Grenoble 1 (UJF)-Université Savoie Mont Blanc (USMB [Université de Savoie] [Université de Chambéry])-Centre National de la Recherche Scientifique (CNRS), Laboratoire de Chimie et Biologie des Métaux (LCBM - UMR 5249), Institut de Chimie du CNRS (INC)-Centre National de la Recherche Scientifique (CNRS)-Université Grenoble Alpes [2016-2019] (UGA [2016-2019])-Institut de Recherche Interdisciplinaire de Grenoble (IRIG), Direction de Recherche Fondamentale (CEA) (DRF (CEA)), Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Direction de Recherche Fondamentale (CEA) (DRF (CEA)), Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Commissariat à l'énergie atomique et aux énergies alternatives (CEA), and Université Joseph Fourier - Grenoble 1 (UJF)-Centre National de la Recherche Scientifique (CNRS)-Université Savoie Mont Blanc (USMB [Université de Savoie] [Université de Chambéry])

Subjects

0106 biological sciences, Insecta, lcsh:Medicine, Biology, 01 natural sciences, Ecology/Marine and Freshwater Ecology, Plant Roots, Gas Chromatography-Mass Spectrometry, Pheromones, 03 medical and health sciences, chemistry.chemical_compound, Aquatic plant, Botany, Glycerol, Ecology/Behavioral Ecology, Animals, [SDV.BBM]Life Sciences [q-bio]/Biochemistry, Molecular Biology, lcsh:Science, ComputingMilieux_MISCELLANEOUS, 030304 developmental biology, 0303 health sciences, Multidisciplinary, lcsh:R, fungi, Ecology/Plant-Environment Interactions, Water, Uracil, Plants, Attraction, Uridine, Thymine, Macrophyte, 010602 entomology, chemistry, Biochemistry, Solubility, Larva, lcsh:Q, [SDE.BE]Environmental Sciences/Biodiversity and Ecology, Thymidine, Research Article

Abstract

Plants produce semio-chemicals that directly influence insect attraction and/or repulsion. Generally, this attraction is closely associated with herbivory and has been studied mainly under atmospheric conditions. On the other hand, the relationship between aquatic plants and insects has been little studied. To determine whether the roots of aquatic macrophytes release attractive chemical mixtures into the water, we studied the behaviour of mosquito larvae using olfactory experiments with root exudates. After testing the attraction on Culex and Aedes mosquito larvae, we chose to work with Coquillettidia species, which have a complex behaviour in nature and need to be attached to plant roots in order to obtain oxygen. This relationship is non-destructive and can be described as commensal behaviour. Commonly found compounds seemed to be involved in insect attraction since root exudates from different plants were all attractive. Moreover, chemical analysis allowed us to identify a certain number of commonly found, highly water-soluble, low-molecular-weight compounds, several of which (glycerol, uracil, thymine, uridine, thymidine) were able to induce attraction when tested individually but at concentrations substantially higher than those found in nature. However, our principal findings demonstrated that these compounds appeared to act synergistically, since a mixture of these five compounds attracted larvae at natural concentrations (0.7 nM glycerol

Published

2008

50. Species-specific seed dispersal in an obligate ant-plant mutualism

Author

Coby Schal, Elsa Youngsteadt, Jeniffer Alvarez Baca, and Jason A. Osborne

Subjects

Ecology/Community Ecology and Biodiversity, Seed dispersal, Myrmecochory, lcsh:Medicine, Biology, Models, Biological, Myrmecophyte, Nest, Species Specificity, Peru, Ecology/Evolutionary Ecology, Animals, Ecology/Behavioral Ecology, lcsh:Science, Symbiosis, Arthropods, Mutualism (biology), Analysis of Variance, Multidisciplinary, Obligate, Ecology, Ants, lcsh:R, Ecology/Plant-Environment Interactions, Feeding Behavior, Plants, biology.organism_classification, Peperomia, Seeds, Vertebrates, lcsh:Q, Epiphyte, Ecology/Ecosystem Ecology, Research Article

Abstract

Throughout lowland Amazonia, arboreal ants collect seeds of specific plants and cultivate them in nutrient-rich nests, forming diverse yet obligate and species-specific symbioses called Neotropical ant-gardens (AGs). The ants depend on their symbiotic plants for nest stability, and the plants depend on AGs for substrate and nutrients. Although the AGs are limited to specific participants, it is unknown at what stage specificity arises, and seed fate pathways in AG epiphytes are undocumented. Here we examine the specificity of the ant-seed interaction by comparing the ant community observed at general food baits to ants attracted to and removing seeds of the AG plant Peperomia macrostachya. We also compare seed removal rates under treatments that excluded vertebrates, arthropods, or both. In the bait study, only three of 70 ant species collected P. macrostachya seeds, and 84% of observed seed removal by ants was attributed to the AG ant Camponotus femoratus. In the exclusion experiment, arthropod exclusion significantly reduced seed removal rates, but vertebrate exclusion did not. We provide the most extensive empirical evidence of species specificity in the AG mutualism and begin to quantify factors that affect seed fate in order to understand conditions that favor its departure from the typical diffuse model of plant-animal mutualism.

Published

2008