Your search keyword '"PLANT species diversity"' showing total 408 results

1. Understory plant biodiversity is inversely related to carbon storage in a high carbon ecosystem

Author

Trevor A. Carter and Brian Buma

Subjects

co‐management, forest biodiversity, forest carbon, plant species diversity, plant species richness, tree biomass carbon, Ecology, QH540-549.5

Abstract

Abstract Given that terrestrial ecosystems globally are facing the loss of biodiversity from land use conversion, invasive species, and climate change, effective management requires a better understanding of the drivers and correlates of biodiversity. Increasingly, biodiversity is co‐managed with aboveground carbon storage because high biodiversity in animal species is observed to correlate with high aboveground carbon storage. Most previous investigations into the relationship of biodiversity and carbon co‐management do not focus on the biodiversity of the species rich plant kingdom, which may have tradeoffs with carbon storage. To examine the relationships of plant species richness with aboveground tree biomass carbon storage, we used a series of generalized linear models with understory plant species richness and diversity data from the USDA Forest Service Forest Inventory and Analysis dataset and high‐resolution modeled carbon maps for the Tongass National Forest. Functional trait data from the TRY database was used to understand the potential mechanisms that drive the response of understory plants. Understory species richness and community weighted mean leaf dry matter content decreased along an increasing gradient of tree biomass carbon storage, but understory diversity, community weighted mean specific leaf area, and plant height at maturity did not. Leaf dry matter content had little variance at the community level. The decline of understory plant species richness but not diversity to increases in aboveground biomass carbon storage suggests that rare species are excluded in aboveground biomass carbon dense areas. These decreases in understory species richness reflect a tradeoff between the understory plant community and aboveground carbon storage. The mechanisms that are associated with observed plant communities along a gradient of biomass carbon storage in this forest suggest that slower‐growing plant strategies are less effective in the presence of high biomass carbon dense trees in the overstory.

Published

2024

2. Plant Communities in Changing Environment.

Author

Vantarová, Katarína Hegedüšová, Bartha, Sándor, Biurrun, Idoia, Šibík, Jozef, and Valachovič, Milan

Subjects

*PLANT communities, *COMMUNITY change, *VEGETATION dynamics, *PLANT diversity, *PLANT species diversity, *HABITATS

Abstract

Changing environment markedly shapes plant diversity and vegetation across all spatial scales. It leads to innumerable local, regional and sometimes global changes in plant communities. Here, we present eleven full-text research articles of the Special Issue "Plant communities in changing environment", which focuses on the evaluation of plant diversity and vegetation changes in different plant communities. We conclude that the results of all research studies show that plants, habitat and functional diversity are strongly conditioned in space and time by various factors, including climate, water regime, snow conditions, and human activities. These changes are also among most significant potential threats for plant diversity. [ABSTRACT FROM AUTHOR]

Published

2024

3. Fungal Diversity of Native and Alien Woody Leguminous Plants in the Middle Urals.

Author

Shiryaev, A. G., Zmitrovich, I. V., Zhao, P., Senator, S. A., and Bulgakov, T. S.

Subjects

WOODY plants, NUMBERS of species, BLACK locust, PATHOGENIC fungi, PLANT growing media, PLANT species diversity

Abstract

The biodiversity of wood-inhabiting fungi on woody leguminous plants (WLPs) growing in the Middle Urals (Russia) has been studied for the first time. From 2002 to 2022, in Sverdlovsk oblast as a model region, 136 species of wood-inhabiting fungi were identified on WLPs: 127 species of Basidiomycota and 9 species of Ascomycota. Fungi develop on 12 out of 20 species of WLPs. The largest number of fungal species was found on the alien Caragana arborescens (115 species/84.5% of the total number of species), while two species were collected on Caragana decorticans,C. ussuriensis, and Laburnum alpinum each and one species was collected on Genista florida. A total of 122 species of fungi were found on nine alien WLPs, which is 4.1 times more than on three native species. The largest number of substrate-specific fungal species can be found to develop on C. arborescens (85/62.5%), four species on Chamaecytisus ruthenicus (2.9%), three species on Maackia amurensis (2.2%), two on Genista tinctoria and Robinia pseudoacacia each (1.5%), and one species on Caragana ussuriensis (0.7%). Nectria cinnabarina develops on the maximum number of substrates, seven WLP species; Xylodon sambuci on six species; and Peniophora cinerea and Schizophyllum commune on four species. In contrast, 71.3% of fungal species were found on one WLP species, and 27.2% of species are characterized by a single finding. For the first time for Sverdlovsk oblast, 14 fungal species are indicated, of which 86% were found in the parks of Ekaterinburg city and tree-lines along the roads, but only 14% were in natural conditions. In order to reveal the latitudinal–zonal specificity for the distribution of species richness of the WLP associated mycobiota, we use Aphyllophoroids as the largest group of fungi among all analyzed (75% of species), and Caragana arborescens, or Siberian peashrub is the richest plant substrate. Changes in the fungal diversity were studied along a meridional transect stretching for 800 km along 60° E, from the middle boreal subzone of Sverdlovsk oblast to the steppes of Chelyabinsk oblast (Russia) and Kostanay oblast (Kazakhstan). In each of the five vegetation zones/subzones, as well as in Ekaterinburg city, six sites were studied, the area of which varies from 0.9 to 6.8 ha. The aboveground phytomass of C. arborescens is maximal in the forest steppe (8.9–11.7 t/ha), and minimal at the edges of the transect (2.4–5.8 t/ha). A positive correlation was found between the aboveground plant phytomass and the species richness of mycobiota, while there was no correlation with climatic parameters. Notable differences were found in Ekaterinburg city: the Siberian peashrub phytomass was two times lower than in the forest steppe, but the species richness of mycobiota was similar to the forest steppe. A similar result was obtained for the α diversity (average number of fungal species at the sites and Shannon index) of mycobiota: an increase in the parameters from the middle boreal subzone to the forest steppe and a decrease in the steppe. The Whittaker and Czekanowski–Sørensen indices (β diversity) increase towards the steppe, which is due to a strong relationship with the mean annual temperature and precipitation. A range of fungal species gravitating towards northern, southern, and urbanized conditions has been revealed. In the north of transect, local species of fungi predominate, while in the south and in Ekaterinburg city, the role of biogeographically distant (alien) taxa is high. In this regard, the species composition of mycobiota of Siberian peashrub is divided into two clusters, northern (boreal) and southern (nemoral-steppe) ones, including Ekaterinburg city. To the south, the species richness of pathogenic fungi increases, but this parameter does not correlate with the C. arborescens phytomass. In plantings of invasive Siberian peashrub, the species richness of the poroid fungi is similar to that of the corticioid fungi at the local and regional level, which differs significantly from natural conditions. A high level of pathogenic fungi was also revealed compared to natural conditions. The results can be used to optimize the conception of Greenway planning in Ekaterinburg city and help prevent a number of environmental problems arising after the rapid implementation of the strategy for developing the city and the surrounding areas. [ABSTRACT FROM AUTHOR]

Published

2023

4. Relationship between plant species diversity and aboveground biomass in alpine grasslands on the Qinghai–Tibet Plateau: Spatial patterns and the factors driving them

Author

Mingxin Yang, Ang Chen, Min Zhang, Qiang Gu, Yanhe Wang, Jian Guo, Dong Yang, Yun Zhao, Qingdongzhi Huang, Leichao Ma, and Xiuchun Yang

Subjects

remote sensing, plant species diversity, random forest model, plant species diversity and aboveground biomass relationships, driving factors, Qinghai–Tibet Plateau, Evolution, QH359-425, Ecology, QH540-549.5

Abstract

Alpine grasslands are important ecosystems on the Qinghai–Tibet Plateau and are extremely sensitive to climate change. However, the spatial responses of plant species diversity and biomass in alpine grasslands to environmental factors under the background of global climate change have not been thoroughly characterized. In this study, a random forest model was constructed using grassland ground monitoring data with satellite remote sensing data and environmental variables to characterize the plant species diversity and aboveground biomass of grasslands in the Three-River Headwaters Region within the Qinghai–Tibet Plateau and analyze spatial variation in the relationship between the plant species diversity and aboveground biomass and their driving factors. The results show that (1) the selection of characteristic variables can effectively improve the accuracy of random forest models. The stepwise regression variable selection method was the most effective approach, with an R2 of 0.60 for the plant species diversity prediction model and 0.55 for the aboveground biomass prediction model, (2) The spatial distribution patterns of the plant species diversity and aboveground biomass in the study area were similar, they were both high in the southeast and low in the northwest and gradually decreased from east to west. The relationship between the plant species diversity and aboveground biomass varied spatially, they were mostly positively correlated (67.63%), but they were negatively correlated in areas with low and high values of plant species diversity and aboveground biomass, and (3) Analysis with geodetector revealed that longitude, average annual precipitation, and elevation were the main factors driving variation in the plant species diversity and aboveground biomass relationship. We characterized plant species diversity and aboveground biomass, as well as their spatial relationships, over a large spatial scale. Our data will aid biodiversity monitoring and grassland conservation management, as well as future studies aimed at clarifying the relationship between biodiversity and ecosystem functions.

Published

2023

5. Comparison of pasture types in the tropical Andes: Species composition, distribution, nutritive value and responses to environmental change

Author

Julia Adams, Cyrus Samimi, Christina Mitterer, Jörg Bendix, and Erwin Beck

Subjects

Tropical mountain pastures, Ecuador, pasture types, pasture distribution, plant species diversity, biomass production, Ecology, QH540-549.5

Abstract

Pastoralism is the main land use in the humid tropical Andes of South America. Wide areas of mountain rainforest have been cleared for gaining pastureland. Due to the lack of indigenous useful grasses in the pristine forests, mainly exotic grass species have been used for establishing the pastures. In the Ecuadorian Andes, Axonopus compressus, Melinis minutiflora, Pennisetum clandestinum and Holcus lanatus are common pasture grass species. Their preference for certain microsites resulted in a mosaic of different pasture types, which reflect the differing ecological conditions on the undulating terrain of the mountain slopes. During the last decades, however, another exotic grass species, Setaria sphacelata has widely been introduced which, because of its fast growth on some of the sites could successfully suppress the formerly dominant plant species. With respect to the changing microclimate and cattle stocking rates the present study explored, whether planting Setaria is the best option for the common low-input type of pasture farming in these tropical mountains. In a study over twenty years, the development of four main pasture types, dominated by the above-mentioned grass species was investigated in areas with and without Setaria, and their topographical occurrence on the sloping terrain was analyzed. On forty-eight plots a pairwise (with or without Setaria) comparison of species composition and diversity, biomass production, forage quality and soil properties was performed. Although Setaria grows faster than the other grass species, its productivity was only higher on flat terrain. The nutritive value of the Setaria plots was at best equivalent to that of the former pastures, while species richness was consistently lower. Our results suggest the maintenance of a terrain-adapted diversification of the pastures and in particular the use of Setaria only on flat terrain.

Published

2022

6. Patch three-dimensional effect for plant species diversity of urban remnant mountain in multi-mountain city

Author

Mulin Zeng, Yu Bao, Zhitai Wang, Zongsheng Huang, Xintong Chen, Wenfei Wei, Xun Lin, and Qin Li

Subjects

Urban remnant mountain, Morphological characteristic, Plant species diversity, Multi-mountainous city, Ecology, QH540-549.5

Abstract

In some karst mountainous areas, with the urban expansion driven by rapid urbanization, a large number of natural mountains that were not suitable for development and construction were embedded into the urban built environment, forming urban remnant mountains(URMs). In this study, we conducted a indicator system to explore the relationship between morphological characteristics of URM and its plant species diversity. The results showed that: (i) The two boundary plane morphological indicators of URMs were significantly associated with its plant species α and β diversity; among the overall morphological indicators, mountain form factor (MFF) was significantly associated with plant species α and β diversity, mountain size coefficient (MSC) was negatively related to Margalef (R) index, and mountain volume density (MVD) had no significant relationship with plant diversity. Additionally, surface morphological indicators were significantly negatively correlated with the Pielou (Jgi) index, and positively correlated with Jaccard (Cj) and Sorenson (Cs) indices. (ii) There were also differences in the influence of morphological characteristic indicators of URMs on the plant species diversity of its different slope position and slope direction. Mountain shape index (MSI), mountain fractal dimension (MFD) and MFF had significant influence on plant species α and β diversity indices of different slope position and slope direction; All surface indicators of URMs morphological characteristics were significantly associated with plant species α and β diversity indices on the southern slope of URMs. (iii) The effects of URMs morphological indicators on plant diversity of different life forms were different, and the influence of herb plant diversity was more significant. (iiii) The multiple regression analysis showed that the URM morphological characteristic indicators could explain the difference of plant species α diversity among different URMs, while the interpretation of plant species β diversity among URMs was poor. In general, the three-dimensional characteristics of the URM are complex and particularity, and the quantitative indicators of different dimensions all showed the impact on the plant species diversity of the URMs. This study demonstrated that the ecological processes of the URM habitats have more complex patch effects in response to interference as compared to the general remnant habitat.

Published

2022

7. The loss of plant species diversity dominated by temperature promotes local productivity in the steppe of eastern Inner Mongolia

Author

Jia Mi, Jun Ou, Hua Liu, Jing Shi, Dima Chen, and Yongfei Bai

Subjects

Inner Mongolia steppe, Plant species diversity, Grassland productivity, Structural equation modelling, Ecology, QH540-549.5

Abstract

In the semiarid grassland ecosystems of eastern Inner Mongolia, the interrelations among the species diversity of different plant communities, productivity, soil nutrients and climate were thoroughly studied through integrated approaches combined with the sample method, correlation analysis and structural equation modelling (SEM) model. The results show that the colonization of perennial grasses was promoted in the wetter and colder climate conditions. The productivity was determined by the perennial grasses, while species diversity was dominated by the perennial forbs. We obtained a U-shaped relationship between biomass and species diversity, which indicated two different strategies for the interaction between grassland biomass and diversity. In our study, air temperature and plant biomass were determined to be the main two indicators of plant species diversity variation. Meanwhile, distinct mutual constraints existed between the biomass of grassland dominant species and species diversity. Furthermore, soil nutrient conditions and climatic factors were found to jointly affect grassland productivity. This study will be helpful in providing deep insight into the dynamics of plant species diversity and the main interactive influencing factors in the semiarid steppe ecosystem and will provide a scientific basis for the maintenance of plant diversity and ecosystem functions in this region.

Published

2022

8. Diversity of vascular plants native to the Ulleungdo and Dokdo Islands in Korea

Author

Jae-Min Chung, Jae-Kwon Shin, and Hyeon-Min Kim

Subjects

Endemic plant, Flora, Plant species diversity, Ulleungdo and Dokdo islands, Vascular plant, Ecology, QH540-549.5

Abstract

The native vascular plants on Ulleungdo and Dokdo islands in Korea were investigated with the objective of determining conservation priorities and establishing a sustainable strategy for conservation of the plant species diversity. A total of 2,058 voucher specimens collected were identified and listed the diversity of plant species of each island. And the species composition, life forms, and rare and endemic species were characterized with respect to the plant species list. The vascular plants native to Ulleungdo island were surveyed 494 taxa in total comprising 102 families, 306 genera, 427 species, 6 subspecies, 57 varieties, 5 forma, and 1 hybrid. Among these, the distribution of 30 taxa was newly identified. On Dokdo island, 58 taxa were recorded comprising 28 families, 49 genera, 47 species, 1 subspecies, 6 varieties, and 1 hybrid. The 496 and 58 taxa of vascular plants native to Ulleungdo and Dokdo islands were classified based on the genera of vascular of Korea (F.K.E.C. 2007), respectively. We provide details on those endangered plants characterized by small population sizes and numbers, and discuss measures for the conservation of plant species diversity on Ulleungdo and Dokdo island, with respect to these endangered plants in particular and to the native plants in general.

Published

2020

9. Species diversity and phylogeography of Cornus kousa (Asian dogwood) captured by genomic and genic microsatellites

Author

Marcin Nowicki, Logan C. Houston, Sarah L. Boggess, Anthony S. Aiello, Miriam Payá‐Milans, Margaret E. Staton, Mitsuhiro Hayashida, Masahiro Yamanaka, Shigetoshi Eda, and Robert N. Trigiano

Subjects

dogwoods, evolutionary history, plant species diversity, population genetics, Ecology, QH540-549.5

Abstract

Abstract Cornus kousa (Asian dogwood), an East Asia native tree, is the most economically important species of the dogwood genus, owing to its desirable horticultural traits and ability to hybridize with North America‐native dogwoods. To assess the species genetic diversity and to better inform the ongoing and future breeding efforts, we assembled an herbarium and arboretum collection of 131 noncultivated C. kousa specimens. Genotyping and capillary electrophoresis analyses of our C. kousa collection with the newly developed genic and published nuclear genomic microsatellites permitted assessment of genetic diversity and evolutionary history of the species. Regardless of the microsatellite type used, the study yielded generally similar insights into the C. kousa diversity with subtle differences deriving from and underlining the marker used. The accrued evidence pointed to the species distinct genetic pools related to the plant country of origin. This can be helpful in the development of the commercial cultivars for this important ornamental crop with increased pyramided utility traits. Analyses of the C. kousa evolutionary history using the accrued genotyping datasets pointed to an unsampled ancestor population, possibly now extinct, as per the phylogeography of the region. To our knowledge, there are few studies utilizing the same gDNA collection to compare performance of genomic and genic microsatellites. This is the first detailed report on C. kousa species diversity and evolutionary history inference.

Published

2020

10. Arable Land Abandonment in the Czech Villages of Romanian Banat Area and Plant Diversity in Old-Fields

Author

Veselý Adam, Vojta Jaroslav, and Kovář Pavel

Subjects

romanian banat, traditional agriculture, landscape change, land abandonment, old-field age, grazing, mowing, burning, soil chemistry, community level, plant species diversity, evenness, secondary succession, grassland, shrubland, clonal expansive dominants, Ecology, QH540-549.5

Abstract

The aim of this study is to differentiate old-field plant communities along the abandonment time and/or environmental gradient in the landscape surrounded villages with established Czech settlers in Romanian Banat area conserving traditional agriculture, and to identify site factors which cause plant diversity of particular vegetation types. Study area: Wider territory centered by the village Sfânta Elena, southern Romania ((44°40’ N; 21°43’ E). Methods: We collected 97 phytosociological relevés covered the same number of old-fields in the area and the following habitat parameters were measured: soil pH, available phosphorus, total carbon and nitrogen, Heat Load Index. Software TURBOVEG / JUICE was used to collect and elaborate the data set of relevés. Old-field vegetation was classified into five basic plant communities using TWINSPAN (all the botanical material includes 291 plant species). For each community, we detected diagnostic species according to their fidelity index. The presence of mowing, grazing or burning was registered for recorded stands. Ecological preferences of each community were examined using one-way analysis of variance (ANOVA). Vegetation-environment relationships were analysed using ordination method – Cannonical correspondence analysis (CCA) in CANOCO for Windows (version 4.5) to find the main variability gradients within the dataset. Scatter plot relationships between variables were constructed. Main results and conclusions: Dependence of number of species (alpha diversity) on the abandoned field’s age exhibits an unimodal shape of this relationship with the maximum peak of species diversity in plant stands aged approximately 13 years. The most importnat ecological factors and/or type of management in the relationship to the old-field plant composition show the following significance order: available phosphorus content in the soil (P), total nitrogen content in the soil (N), presence of burning, length of abandonment (old-field age), carbon/nitrogen ratio in the soil (C/N). Other parameters (grazing, mowing, zero management) do not demonstrate effective impact according to our dataset and seem to be equal to the absence of burning.

Published

2019

11. Evaluation of understory plant species diversity in relation to n some environmental factors in Imamzadeh Abdollah Baghmalek forests

Author

S. Attarroshan and M. Heydari

Subjects

plant species diversity, ordination, richness, Khuzestan, Environmental sciences, GE1-350, Ecology, QH540-549.5

Abstract

This study aimed to investigate plant species diversity in the ecological species group in relation to the environmental factors. A study area of 216 ha in the southeast of Baghmalek on which seventy 20×20 m plots were established according to the random-systematic method was selected. Soil properties and physiographic factors were recorded at each plot. Herbaceous species composition was recorded using four 1×1 m subplots around the center of the main plot. A cluster analysis and a CCA analysis were undertaken and three ecological groups were identified. The results showed that pH, Nitrogen, cation exchange capacity, organic carbon and clay percentage were the most important factors of the first group, and the indicator species were, Agropyrom trichophorum, Hordeum bulbosum, Aegilops triuncialis. The second group with Bromus tectorum, Salvia macrosiphon, Bromus danthonia as indicator species could be correlated with clay, organic carbon, Potassium, Phosphorous, Nitrogen, values. Lastly, the third group, characterized by Artemisia aucheri, Astragalus gossypinus, Phlomis persica, Artemisia haussknechtii as the indicator species, could be correlated with the elevation percentage of sand, Bulk Density and EC. We also found that species diversity varied significantly among the groups, and it was the highest in the first group and the lowest in the third group. The results could, therefore, contribute to better evaluation of species diversity and management of the biodiversity.

Published

2018

12. Seasonal habitat utilisation and morphological characteristics of Chamaeleo dilepis on Telperion Nature Reserve, Mpumalanga, South Africa.

Author

O'Donoghue, Trevor L, Slater, Kerry, and Brown, Leslie R

Subjects

*PLANT species diversity, *NATURE reserves, *FOREST canopies, *PLANT habitats, *HABITATS

Abstract

Limited information on the habitat utilisation and seasonal activity of flap-necked chameleons (Chamaeleo dilepis) is available. We investigated habitat utilisation, seasonal distribution, and sexual dimorphism of C. dilepis on Telperion Nature Reserve (a privately protected natural area) in South Africa. Seven broad plant habitat units were surveyed for one year, which included a wet and a dry season. Plant species richness and species diversity, woody plant densities and canopy cover were recorded and analysed in each of the habitat units. Location, sex, age class and morphological measurements were recorded for located chameleons. Gravid adult females were found to be significantly heavier and larger than adult males, but no differences were found in size or mass for subadults. The occurrence of hatchlings was significantly influenced by rainfall, whereas minimum temperature had a significant influence on the occurrence of adults and subadults. Hatchlings occurred from mid-December to March in habitats associated with high shrub and grass canopy cover and low plant species diversity. Subadults were located from mid-March to the end of May in woody habitats and adults were located from the end of October until the end of May. Subadult and adult chameleons preferred dense woodland with high tree canopy cover and rockiness with high plant species diversity. The results of this study suggest that C. dilepis on Telperion have seasonal habits influenced by rainfall, minimum temperature and habitat structure. [ABSTRACT FROM AUTHOR]

Published

2020

13. Diversity of vascular flora accompanying Salix viminalis L. crops depending on soil conditions

Author

Maria Janicka, Aneta Kutkowska, and Jakub Paderewski

Subjects

Willow, Short-rotation coppice, Energy crop, Vascular flora, Plant species diversity, Soil agricultural complex, Ecology, QH540-549.5

Abstract

The main purpose of the study was to assess the impact of energy willow (Salix viminalis L.) crops on the vascular flora diversity of agroecosystems in Łódź voivodeship in central Poland. The studies were carried out in the years 2013 and 2014 on seven commercial plantations which were established in various soil conditions, on five soil agricultural complexes. In total, 50 phytosociological relevés were made using the Braun-Blanquet method. The evaluation was conducted on the basis of an inventory of vascular flora accompanying energy willow crops, involving determination of phytosociological classes and multifaceted analysis. For each species the following parameters were determined: family, geographical and historical group, apophyte origin, biological-stability, life-form, and status as an invasive, endangered, near-endangered, or protected species. The number of vascular plant species accompanying energy willow crops was high (133 species in total) and depended on the soil conditions (soil agricultural complex - SAC). The largest number of species (74) was found on silty and sandy soils, too wet or too dry (SAC 9), while the lowest (45) was on very dry sandy soils (SAC 7). These species belonged mainly to three phytosociological classes: Molinio-Arrhenatheretea, Stellarietea mediae, and Artemisietea vulgaris. In all habitats, most species (83%) were rare and more frequent (I and II constancy class). The species were mainly apophytes – native species (76.7%), and among them meadow plants, woodland and shrub species were predominant. An important part of flora was endangered species (Agrostemma githago L.). Ten invasive plant species which mostly occurred very rarely were also found. Salix viminalis L. crops favor the maintenance of agroecosystem biodiversity, as confirmed by the values calculated for the Shannon–Wiener, Simpson and inverse Simpson indexes. The floristic diversity on the Salix viminalis L. plantations proved to be slightly higher than on typical arable crop plantations.

Published

2020

14. Local disturbance by muskrat, an ecosystem engineer, enhances plant diversity in regionally‐altered wetlands.

Author

Kua, Zi Xun, Stella, John C., and Farrell, John M.

Subjects

PLANT diversity, PLANT species diversity, ECOSYSTEMS, ECOLOGICAL disturbances, WETLANDS, BIOLOGICAL invasions, BIOTIC communities

Abstract

Biotic ecosystem engineers are increasingly recognized as important drivers of biodiversity, structure, and function in many ecosystems. By regulating physical processes and creating local disturbances, ecosystem engineers can serve as important elements of passive habitat restoration, as they continuously alter and shape their environments. Native to North American temperate wetlands, the common muskrat (Ondatra zibethicus) is an ecosystem engineer that alters its environment through herbivory, house and structure building, and creation of activity networks. While the physical consequences of muskrat disturbances are well‐known, few studies have quantified their impact on the wetland biotic community. We conducted a field study to investigate the effects of muskrat herbivory and structure building on plant biodiversity in wetlands along the upper St. Lawrence River (New York, USA) that have been extensively modified by long‐term water regulation and non‐native cattail invasion. Plant species richness and diversity were greater in muskrat‐disturbed areas compared to at‐large reference plots within the same wetlands. Soil saturation mediated the biodiversity impacts of muskrats, with intermediate moisture levels resulting in the highest species richness. These interacting drivers, muskrat activity and hydrology, had a compensatory effect on plant biodiversity loss associated with non‐native cattail invasion. Multivariate analysis indicated a distinct plant community associated with muskrat disturbances. Analysis of spatiotemporal patterns of house locations suggests that some muskrats reuse house locations in sequential years, likely amplifying the intensity and duration of their impacts. This study demonstrates that muskrat disturbance influences wetland plant diversity at scales relevant to regional drivers of plant diversity. [ABSTRACT FROM AUTHOR]

Published

2020

15. The contribution of nitrogen deposition to the eutrophication signal in understorey plant communities of European forests

Author

Han F. vanDobben and Wim deVries

Subjects

atmospheric deposition, forest vegetation, plant community dynamics, plant species diversity, resampling study, soil chemistry, Ecology, QH540-549.5

Abstract

Abstract We evaluated effects of atmospheric deposition of nitrogen on the composition of forest understorey vegetation both in space and time, using repeated data from the European wide monitoring program ICP‐Forests, which focuses on normally managed forest. Our aim was to assess whether both spatial and temporal effects of deposition can be detected by a multiple regression approach using data from managed forests over a relatively short time interval, in which changes in the tree layer are limited. To characterize the vegetation, we used indicators derived from cover percentages per species using multivariate statistics and indicators derived from the presence/absence, that is, species numbers and Ellenberg's indicator values. As explanatory variables, we used climate, altitude, tree species, stand age, and soil chemistry, besides deposition of nitrate, ammonia and sulfate. We analyzed the effects of abiotic conditions at a single point in time by canonical correspondence analysis and multiple regression. The relation between the change in vegetation and abiotic conditions was analyzed using redundancy analysis and multiple regression, for a subset of the plots that had both abiotic data and enough species to compute a mean Ellenberg N value per plot using a minimum of three species. Results showed that the spatial variation in the vegetation is mainly due to “traditional” factors such as soil type and climate, but a statistically significant part of the variation could be ascribed to atmospheric deposition of nitrate. The change in the vegetation over the past c. 10 years was also significantly correlated to nitrate deposition. Although the effect of deposition on the individual species could not be clearly defined, the effect on the vegetation as a whole was a shift toward nitrophytic species as witnessed by an increase in mean Ellenberg's indicator value.

Published

2017

16. VEGETATION DIVERSITY ON THE MICROSITES CAUSED BY TREE UPROOTING DURING A CATASTROPHIC WINDTHROW IN TEMPERATE BROADLEAVED FORESTS

Author

L. G. Khanina, M. V. Bobrovsky, and I. V. Zhmaylov

Subjects

windthrow, Kaluzhskie Zaseki Reserve, pit-and-mound topography, plant species diversity, DCA, ecological-coenotic groups, Ecology, QH540-549.5

Abstract

We analyzed the diversity of vascular plant species growing on microsites formed after tree falls with uprooting as a result of catastrophic windthrow that occurred in the temperate broadleaved forests of the Kaluzhskie Zaseki Reserve in 2006. Size characteristics of pits and mounds formed by uprooting of 110 individuals of 9 tree species were measured. Vegetation on microsites formed by 45 fallen trees of 8 species was described. We distinguished the following microsites: 1) top of the mound; 2) back side of the mound; 3) front side of the mound (from the trunk side); 4) pit over the mound; 5) pit in front of the mound in the case of rotational treefalls; 6) part of the trunk close to the roots (deadwood). Vegetation on 45 plots of 1x1 m in size and located close to but not affected by tree uprooting (reference plots, or reference communities) was also described. The results of the indirect ordination analysis revealed that the ecological and phytocoenotic differences between the plant associations of Querco – Tilietum cordatae and Aceri campestris – Tilietum cordatae persisted in the areas of catastrophic windthrow both on the plots of reference communities and in vegetation overgrowing pits and mounds. Ordination showed differences between the vegetation in the microsites formed by tree uprooting in a series of mound – deadwood – pit – reference community. On 251 plots, 78 vascular plant species were totally registered, among them 26 species were not found in the reference plots but occurred in the pit-and-mound microsites; 6 species were not found before the windthrow study in the descriptions of broadleaved and aspen forests of the Reserve, and 8 species were found in the descriptions of those forests no more than three times. New species are mostly species from the boreal (Phegopteris connectilis, Sambucus racemosa), nitrophilous (Rubus caesius), water-marsh (Epilobium hirsutum, Epilobium palustre), meadow-edge (Bromopsis inermis, Hypericum hirsutum, Conyza canadensis, Vicia cracca), and piny (Calamagrostis epigeios) ecological-coenotic groups. In general, the increase in plant diversity in the area of catastrophic windthrow is caused by the massive emergence of new microsites (pits, mounds and deadwood) and the subsequent appearance of species with different ecological and coenotic traits.

Published

2019

17. ecology and significance of below-ground bud banks in plants.

Author

Ott, Jacqueline P, Klimešová, Jitka, and Hartnett, David C

Subjects

*ECOLOGICAL disturbances, *PLANT species diversity, *ECOLOGY, *BUDS, *POPULATION dynamics, *PLANT populations

Abstract

Background Below-ground bud banks have experienced much recent interest due to discoveries that they (1) account for the majority of seasonal population renewal in many communities, (2) are crucial to regeneration following disturbance, and (3) have important consequences for plant population dynamics and plant and ecosystem function across a number of habitats. Scope This review presents an overview of the role of bud banks in plant population renewal, examines bud bank life history, summarizes bud bank traits and their potential ecological implications, synthesizes the response of bud banks to disturbance, and highlights gaps to guide future research. The characteristics and life history of buds, including their natality, dormancy, protection and longevity, provide a useful framework for advancing our understanding of bud banks. The fate of buds depends on their age, size, type, location, and biotic and abiotic factors that collectively regulate bud bank dynamics. A bud bank can provide a demographic storage effect stabilizing population dynamics, and also confer resistance to disturbance and invasion. Regeneration capacity following disturbance is determined by interactions among the rates of bud natality, depletion and dormancy (meristem limitation), and the resources available to support the regeneration process. The resulting response of plants and their bud banks to disturbances such as fire, herbivory and anthropogenic sources determines the community's regenerative capacity. Conclusions Vegetation responses to environmental change may be mediated through changes in bud bank dynamics and phenology. Environmental change that depletes the bud bank or prohibits its formation likely results in a loss of vegetation resilience and plant species diversity. Standardization of bud sampling, examination of bud banks in more ecosystems and their response to environmental variation and disturbance regimes, employment of stage-structured bud bank modelling and evaluation of the cost of bud bank construction and maintenance will benefit this expanding field of research. [ABSTRACT FROM AUTHOR]

Published

2019

18. Effects of the ephemeral stream on plant species diversity and distribution in an alluvial fan of arid desert region: An application of a low altitude UAV.

Author

Yang, Xiao-Dong, Wang, Juan, Xu, Ming-Shan, Ali, Arshad, Xu, Yilu, Lamb, Dane, Duan, Lu-Chun, Yan, Kai-Hong, and Yang, Sheng-Tian

Subjects

*PLANT species diversity, *PLANT growth, *SOIL texture, *PLANT communities, *SOIL electric conductivity measurement

Abstract

Biodiversity conservation, plant growth and spatial distribution of plant species are the central issues in contemporary community ecology. Ephemeral stream may influence soil properties, which in turn may determine biodiversity and function of an ecosystem in alluvial fan of arid desert region. Ephemeral stream is one of the most common natural disturbances, yet the effects of the ephemeral stream on plant communities in terms of species diversity and plant species distribution remain poorly studied. In this study, the information of species distribution, ephemeral stream beds (‘washes’), and the characteristics of plant growth, i.e. height, crown area, were interpreted at different heights using the images of low altitude unmanned aerial vehicle (UAV). After that, soil properties such as soil texture (sand, silt and clay), soil water content, pH, soil organic matter, soil electric conductivity, soil bulk density and the percentage of gravel content, and their relationships with UAV data were assessed in order to explore the influences of ephemeral stream on species diversity, plant growth characteristics and species distribution in an alluvial fan of arid desert region. The results showed that deep-rooted plants were only distributed in washes whereas shallow-rooted plants were distributed in both washes and the outside of washes (‘non-washes’). Species richness was significantly higher in washes than that in non-washes whereas the opposite pattern was true for abundance. Soil properties, plant height and crown area were higher in washes than that in non-washes. Plant height, crown area and the total number of individual plants increased with increasing wash width and per unit length of stream flow. This study highlights that the coupling factors of ephemeral stream, such as soil erosion, particle transport and sedimentation, can dramatically cause changes in soil properties and total number of individual plants, and hence, can influence species diversity, plant growth characteristics and spatial distribution of plant species in an alluvial fan of arid desert regions. [ABSTRACT FROM AUTHOR]

Published

2019

19. Functional composition has stronger impact than species richness on carbon gain and allocation in experimental grasslands.

Author

Roscher, Christiane, Karlowsky, Stefan, Milcu, Alexandru, Gessler, Arthur, Bachmann, Dörte, Jesch, Annette, Lange, Markus, Mellado-Vázquez, Perla, Strecker, Tanja, Landais, Damien, Ravel, Olivier, Buchmann, Nina, Roy, Jacques, and Gleixner, Gerd

Subjects

*PLANT species diversity, *CARBOHYDRATES, *PLANT biomass, *GRASSES, *CARBON

Abstract

Numerous experiments have shown positive diversity effects on plant productivity, but little is known about related processes of carbon gain and allocation. We investigated these processes in a controlled environment (Montpellier European Ecotron) applying a continuous 13CO2 label for three weeks to 12 soil-vegetation monoliths originating from a grassland biodiversity experiment (Jena Experiment) and representing two diversity levels (4 and 16 sown species). Plant species richness did not affect community- and species-level 13C abundances neither in total biomass nor in non-structural carbohydrates (NSC). Community-level 13C excess tended to be higher in the 16-species than in the 4-species mixtures. Community-level 13C excess was positively related to canopy leaf nitrogen (N), i.e. leaf N per unit soil surface. At the species level, shoot 13C abundances varied among plant functional groups and were larger in legumes and tall herbs than in grasses and small herbs, and correlated positively with traits as leaf N concentrations, stomatal conductance and shoot height. The 13C abundances in NSC were larger in transport sugars (sucrose, raffinose-family oligosaccharides) than in free glucose, fructose and compounds of the storage pool (starch) suggesting that newly assimilated carbon is to a small portion allocated to storage. Our results emphasize that the functional composition of communities is key in explaining carbon assimilation in grasslands. [ABSTRACT FROM AUTHOR]

Published

2019

20. Evaluation of the ribosomal DNA internal transcribed spacer (ITS), specifically ITS1 and ITS2, for the analysis of fungal diversity by deep sequencing.

Author

Yang, Rui-Heng, Su, Jin-He, Shang, Jun-Jun, Wu, Ying-Ying, Li, Yan, Bao, Da-Peng, and Yao, Yi-Jian

Subjects

*RIBOSOMAL DNA, *FUNGI diversity, *NUCLEOTIDE sequencing, *PLANT species diversity, *PLANT-fungus relationships

Abstract

The nuclear ribosomal DNA internal transcribed spacer (ITS) has been widely used to assess the fungal composition in different environments by deep sequencing. To evaluate the ITS in the analysis of fungal diversity, comparisons of the clustering and taxonomy generated by sequencing with different portions of the whole fragment were conducted in this study. For a total of 83,120 full-length ITS sequences obtained from the UNITE database, it was found that, on average, ITS1 varied more than ITS2 within the kingdom Fungi; this variation included length and GC content variations and polymorphisms, with some polymorphisms specific to particular fungal groups. The taxonomic accuracy for ITS was higher than that for ITS1 or ITS2. The commonly used operational taxonomic unit (OTU) for evaluating fungal diversity and richness assigned several species to a single OTU even with clustering at 99.00% sequence similarity. The clustering and taxonomic capacities did not differ between ITS1 and ITS2. However, the OTU commonality between ITS1 and ITS2 was very low. To test this observation further, 219,741 pyrosequencing reads, including 39,840 full-length ITS sequences, were obtained from 10 soil samples and were clustered into OTUs. The pyrosequencing results agreed with the results of the in silico analysis. ITS1 might overestimate the fungal diversity and richness. Analyses using ITS, ITS1 and ITS2 yielded several different taxa, and the taxonomic preferences for ITS and ITS2 were similar. The results demonstrated that ITS2 alone might be a more suitable marker for revealing the operational taxonomic richness and taxonomy specifics of fungal communities when the full-length ITS is not available. [ABSTRACT FROM AUTHOR]

Published

2018

21. Tree species richness predicted using a spatial environmental model including forest area and frost frequency, eastern USA.

Author

Kwon, Youngsang, Larsen, Chris P. S., and Lee, Monghyeon

Subjects

*PLANT species diversity, *FORESTS & forestry, *BEAMFORMING, *LINEAR models (Communication), *GEOINFORMATICS

Abstract

Assessing geographic patterns of species richness is essential to develop biological conservation as well as to understand the processes that shape these patterns. We aim to improve geographic prediction of tree species richness (TSR) across eastern USA by using: 1) gridded point-sample data rather than spatially generalized range maps for the TSR outcome variable, 2) new predictor variables (forest area FA; mean frost day frequency MFDF) and 3) regression models that account for spatial autocorrelation. TSR was estimated in 50 km by 50 km grids using Forest Inventory and Analysis (FIA) point-sample data. Eighteen environmental predictor variables were employed, with the most effective set selected by a LASSO that reduced multicollinearity. Those predictors were then employed in Generalized linear models (GLMs), and in Eigenvector spatial filtering (ESF) models that accounted for spatial autocorrelation. Models were evaluated by model fit statistics, spatial patterns of TSR predictions, and spatial autocorrelation. Our results showed gridded TSR was best-predicted by the ESF model that used, in descending order of influence: precipitation seasonality, mean precipitation in the driest quarter, FA, and MFDF. ESF models, by accounting for spatial autocorrelation, outperformed GLMs regardless of the predictors employed, as indicated by percent deviance explained and spatial autocorrelation of residuals. Small regions with low TSR, such as the Midwest prairie peninsula, were successfully predicted by ESF models, but not by GLMs or other studies. Gridded TSR in Florida was only correctly predicted by the ESF model with FA and MFDF, and was over-predicted by all other models. [ABSTRACT FROM AUTHOR]

Published

2018

22. Global meta-analysis reveals agro-grassland productivity varies based on species diversity over time.

Author

Ashworth, Amanda J., Toler, Heather D., Allen, Fred L., and Augé, Robert M.

Subjects

*GRASSLANDS, *AGRICULTURAL productivity, *PLANT species diversity, *ECOLOGICAL research, *ECOSYSTEM services

Abstract

Ecological research suggests increased diversity may improve ecosystem services, as well as yield stability; however, such theories are sometimes disproven by agronomic research, particularly at higher diversity levels. We conducted a meta-analysis on 2,753 studies in 48 articles published over the last 53 years to test: if biological N2 fixation (BNF) supplies adequate nitrogen (N) for plant growth relative to synthetic fertilizers; how crop physiological traits affect legume-grass symbiosis; and, how cultural practices affect BNF over a range of soils and climates overtime (in polycultures versus sole grasslands). Globally, net primary productivity (NPP; total aboveground production response of grass and legume in higher-diversity treatments) increased 44% via legume associations relative to sole grass controls (including both with and without N fertilizer). Several moderating variables affected NPP including: (i) plant photosynthetic pathway (mixtures of C3 grasses resulted in a 57% increase in NPP, whereas mixtures of C4 grasses resulted in a 31% increase; similarly cool-season legumes increased NPP 52% compared to a 27% increase for warm-season legumes relative to grasslands without diversity); (ii) legume life cycle [NPP response for perennial legume mixtures was 50% greater than sole grass controls, followed by a 28% increase for biennial, and a 0% increase for annual legumes)]; and, (iii) species richness (one leguminous species in a grassland agroecosystem resulted in 52% increase in NPP, whereas >2 legumes resulted in only 6% increases). Temporal and spatial effect sizes also influenced facilitation, considering facilitation was greatest (114% change) in Mediterranean climates followed by oceanic (84%), and tropical savanna (65%) environments; conversely, semiarid and subarctic systems had lowest Rhizobium-induced changes (5 and 0% change, respectively). Facilitation of grass production by legumes was also affected by soil texture. For example, a 122% NPP increase was observed in silt clay soils compared to 14% for silt loam soils. Niche complementarity effects were greatest prior to 1971 (61% change), compared to recent studies (2011–2016; -7% change), likely owing to reduced global sulfur deposition and increased ambient temperatures overtime. These historical trends suggest potential for legume intercrops to displace inorganic-N fertilizer and sustainably intensify global NPP. Results herein provide a framework for ecologists and agronomists to improve crop diversification systems, refine research goals, and heighten BNF capacities in agro-grasslands. [ABSTRACT FROM AUTHOR]

Published

2018

23. Environmental traits determining plant species distribution in selected midforest bogs.

Author

Urban, Danuta, Tokarz, Ewelina, Smal, Halina, Jóźwiakowski, Krzysztof, and Kowalczyk-Juśko, Alina

Subjects

*PEATLAND forestry, *BOGS, *PLANT species diversity, *OXIDATION-reduction reaction, *DEHYDROGENASE kinetics, *PLANT communities, *ECOLOGY

Abstract

The investigations were carried out in six small mid-forest peat bogs with active peat-forming processes, all situated in the Lublin region (Eastern Poland). The bogs represented two floristically different types of peatland: raised bogs and transitional mires species composition analysis and specific chemistry analysis (pH, Eh, carbon content, N, P, Mg, Na, Ca, Mn, Fe, dehydrogenase activity and water level) were performed. The plant assotiations/communities of the peat bogs represented three phytosociological classes: Scheuchzerio-Caricetea nigrae, Oxycocco-Sphagnetea , and Vaccinio-Piceetea . The analysis of redox potential measured in the different communities revealed differences in the Eh values between these phytocoenoses ( p < 0.001 ). Assotiations representing Vaccinio uliginosi-Pinetum were found in areas characterised by the highest redox potential. Redox potential values in these communities were significantly higher than the values recorded in bog communities and mosaic associations. Seasonal variability of the redox potential was noted as well. The current research indicates that soil chemical parameters: pH, Eh are closely related with water table level and plant distributions. [ABSTRACT FROM AUTHOR]

Published

2018

24. Terrestrial mammal responses to oil palm dominated landscapes in Colombia.

Author

Pardo, Lain E., Campbell, Mason J., Edwards, Will, Clements, Gopalasamy Reuben, and Laurance, William F.

Subjects

*OIL palm, *AGRICULTURAL industries, *PLANTATIONS, *PLANT canopies, *PLANT species diversity

Abstract

The rapid expansion of oil palm cultivation in the Neotropics has generated great debate around possible biodiversity impacts. Colombia, for example, is the largest producer of oil palm in the Americas, but the effects of oil palm cultivation on native fauna are poorly understood. Here, we compared how richness, abundance and composition of terrestrial mammal species differ between oil palm plantations and riparian forest in the Colombian Llanos region. Further, we determined the relationships and influence of landscape and habitat level variables on those metrics. We found that species richness and composition differed significantly between riparian forest and oil palm, with site level richness inside oil palm plantations 47% lower, on average, than in riparian forest. Within plantations, mammalian species richness was strongly negatively correlated with cattle abundance, and positively correlated with the density of undergrowth vegetation. Forest structure characteristics appeared to have weak and similar effects on determining mammal species richness and composition along riparian forest strips. Composition at the landscape level was significantly influenced by cover type, percentage of remaining forest and the distance to the nearest town, whereas within oil palm sites, understory vegetation, cattle relative abundance, and canopy cover had significant effects on community composition. Species specific abundance responses varied between land cover types, with oil palm having positive effects on mesopredators, insectivores and grazers. Our findings suggest that increasing habitat complexity, avoiding cattle and retaining native riparian forest–regardless of its structure–inside oil palm-dominated landscapes would help support higher native mammal richness and abundance at both local and landscape scales. [ABSTRACT FROM AUTHOR]

Published

2018

25. Low offspring survival in mountain pine beetle infesting the resistant Great Basin bristlecone pine supports the preference-performance hypothesis.

Author

Eidson, Erika L., Mock, Karen E., and Bentz, Barbara J.

Subjects

*MOUNTAIN pine beetle, *GREAT Basin bristlecone pine, *SURVIVAL analysis (Biometry), *CLIMATE change, *PLANT species diversity

Abstract

The preference-performance hypothesis states that ovipositing phytophagous insects will select host plants that are well-suited for their offspring and avoid host plants that do not support offspring performance (survival, development and fitness). The mountain pine beetle (Dendroctonus ponderosae), a native insect herbivore in western North America, can successfully attack and reproduce in most species of Pinus throughout its native range. However, mountain pine beetles avoid attacking Great Basin bristlecone pine (Pinus longaeva), despite recent climate-driven increases in mountain pine beetle populations at the high elevations where Great Basin bristlecone pine grows. Low preference for a potential host plant species may not persist if the plant supports favorable insect offspring performance, and Great Basin bristlecone pine suitability for mountain pine beetle offspring performance is unclear. We infested cut bolts of Great Basin bristlecone pine and two susceptible host tree species, limber (P. flexilis) and lodgepole (P. contorta) pines with adult mountain pine beetles and compared offspring performance. To investigate the potential for variation in offspring performance among mountain pine beetles from different areas, we tested beetles from geographically-separated populations within and outside the current range of Great Basin bristlecone pine. Although mountain pine beetles constructed galleries and laid viable eggs in all three tree species, extremely few offspring emerged from Great Basin bristlecone pine, regardless of the beetle population. Our observed low offspring performance in Great Basin bristlecone pine corresponds with previously documented low mountain pine beetle attack preference. A low preference-low performance relationship suggests that Great Basin bristlecone pine resistance to mountain pine beetle is likely to be retained through climate-driven high-elevation mountain pine beetle outbreaks. [ABSTRACT FROM AUTHOR]

Published

2018

26. Ecological Bases for Sustainable Management of Pochote (Ceiba aesculifolia subsp. parvifolia) Through Demographic Analysis.

Author

Arellanes-Cancino, Yaayé, Romero-Sosa, Miguel Ángel, Vega, Ernesto, Maza-Villalobos, Susana, and Casas-Fernández, Alejandro

Subjects

PLANT diversity, ECOLOGY, PLANT species diversity, WILDLIFE conservation, SUSTAINABLE agriculture, TREE populations

Abstract

The Tehuacán-Cuicatlán Valley is one of the areas with the highest biocultural diversity in Mexico. There, the pochote (Ceiba aesculifolia subsp. parvifolia) has been used for more than 7000 years, and its seeds are currently consumed and sold in traditional markets. However, the high demand-supply of this resource in regional markets could affect the permanence of the species populations. This study evaluated the state of populations harvested at different intensity levels, their risk, and potential for sustainable use. In the state of Puebla, pochote seeds are mainly commercialized, while in Oaxaca they are directly consumed by households. During 2 years, we censused five populations of the region from permanent 5000 m2 plots. We evaluated growth, survival, and fecundity of individual plants of each population and constructed demographic matrix models for calculating population growth rates (λ), viability, and elasticity. Population growth rates in Puebla were λ ˂ 1, while in Oaxaca λ > 1. Permanence of adult trees is the most important demographic aspect for maintaining populations’ growth rates. Viability analyses for 30 years showed that two populations studied are at risk of extinction. In localities where seeds are directly consumed, the populations tolerate harvest rates of nearly 90% of fruits, while in those used for commercialization the populations tolerate lower levels, because of variations in population structure and growth rates. By simulating different harvest rates, we suggest optimal sustainable harvesting. For conserving pochote, monitoring of used populations is crucial. Our current information provide criteria that may be helpful to local authorities and people for making appropriate decisions to obtain benefits from pochote without compromising its populations’ stability. [ABSTRACT FROM AUTHOR]

Published

2018

27. Plants in traditional home gardens: richness, composition, conservation and implications for native biodiversity in Benin.

Author

Gbedomon, Rodrigue, Salako, Valère, Glèlè Kakaï, Romain, Adomou, Aristide, and Assogbadjo, Achille

Subjects

GARDENING, AGROBIODIVERSITY, PLANT species diversity, HUMAN settlements & the environment, ECOLOGY

Abstract

Home gardens have received increasing attention and have been insistently presented as hotspots for agro-biodiversity over the last decades. However, apart from their exceptional high plant species diversity, there is little quantitative evidence of the effectiveness of plant species conservation in home gardens. This study examined this issue by assessing (i) the size and membership of garden flora and the contribution to the maintenance of the national flora, (ii) how home garden flora connects to the larger ecosystem it belongs to and (iii) the conservation status of plant species at the home garden level. 360 home gardens distributed in three agro-ecological zones and nine phyto-geographical districts in Benin were visited and inventoried. Diversity parameters at different taxonomic levels were calculated. Species accumulation and spatial occupancy, multivariate methods and rarity index were also used for data analysis. Findings showed that the 360 studied home gardens hosted up to 14.21% of plant species and 44.32% of plant families of the national flora. Home garden flora was constantly dominated by exotic plant species but strongly connected to their surrounding ecosystems, being composed of at least 60% of plant species from their phyto-geographical districts. Finally, home garden plant species were mostly rare and threatened at the home garden level. In this study, we acknowledge the contribution of home gardens to the maintenance of plant species diversity at regional and global levels than local level. Based on the observed prevalence of exotic species, HG effectiveness in sustainably conserving native plant species biodiversity remains questionable. [ABSTRACT FROM AUTHOR]

Published

2017

28. Evaluation of plant species diversity in the road dividers of Dhaka City

Author

Robin Khan, Siddiq Hasan, Al Amin, Abulais Shomrat, Abdur Rahman Fahad, and Mohammad Zashim Uddin

Subjects

Ecology, Botany, Plant species diversity, Plant Science, Biology, Ecology, Evolution, Behavior and Systematics

Abstract

The present study aims to evaluate the present status of plant species diversity in the road dividers of Dhaka city. A total of 90 plant species under 73 genera and 42 families have been recorded from the road dividers of Dhaka city. Analysis showed that among the 90 species, the most abundant plant species in the road divider are Mimusops elengi (Bakul) Polyalthia longifolia (Debdaru), Leucaena leucocephala (Epil-epil), Tabernaemontana divaricata (Togor) and Swietenia mahagoni (Mahagoni). In case of dominant analysis based important value index showed that Mimusops elengi is the top dominant plant species followed by Polyalthia longifolia, Leucaena leucocephala, Tabernaemontana divaricata and Swietenia mahagoni respectively. These plant species have also showed the higher relative density, relative frequency and relative abundance. The percentage of native and exotic species was found here 44% and 56%, respectively. Most abundant and dominant plant species in the road dividers are exotics including Mimusops elengi,Polyalthia longifolia, Leucaena leucocephala and Swietenia mahagoni. Species diversity value was found higher in Hatirjeel site whereas lowest in Baridhara- Badda site. A number of recommendations are made based on the present results for the management of plant species diversity in the road dividers of Dhaka city. Some recommended native plant species for plantation according to the width and soil depth in the road dividers are Cassia fistula, Holarrhena pubescens, Firmiana colorata, Shorea robusta, Miliusa valutina, Butea monosperma, Alstonia scholaris, Toona ciliata, Ficus racemosa, Bombax ceiba, Woodfordia fruticosa, Melastoma malabathricum, Sterculia villosa, Grewia microcos, Syzygium cumini, Tabernaemontana divaricata, Ixora coccinea, Terminalia bellirica, Terminalia arjuna and also native seasonal flowers. Bangladesh J. Plant Taxon. 28(1): 141-154, 2021 (June)

Published

2021

29. Floristic composition and plant species diversity in and around the brickfield areas of Savar-Dhamrai region of Dhaka district

Author

Shayla Sharmin Shetu, Saiful Islam, Abdur Rahim, and Saleh Ahammad Khan

Subjects

Geography, Ecology, Plant species diversity, Composition (visual arts), Floristics

Abstract

This study has confirmed the occurrence of a total of 181 species of vascular plants under 133 genera and 51 families and estimates the plant species diversity in and around the brickfield areas of Savar-Dhamrai region of Dhaka district. Of these, six species were pteridophytes, 175 were Angiosperms, and 144 species were economically important. Five families, composed of six species, belonged to Pteridophyta, 40 families, consist of 128 species, to Magnoliopsida (dicotyledons) and six families, comprised of 47 species, to Liliopsida (monocotyledons). Total of 161 species were herbs, 14 were shrubs, and only six were trees. Asteraceae with 14 species and Poaceae with 24 species were the largest family in Magnoliopsida and Liliopsida, respectively. Amaranthus L., Persicaria (L.) Mill., Solanum L. and Lindernia All. with four species each were appeared as the best representative genera in Mangoliopsida, while Cyperus L. with five species in Liliopsida. The species composition and diversity of abandoned brickfields were found to be higher than those of functional brickfields. A total of 42 (23.20%) species were common in both abandoned and functional brickfields of this region. Species composition in the abandoned brickfields of Savar and Dhamrai was mostly similar (64.15%). This study suggests to control and monitor the brickfields under the respective authorities to favor the formation and regeneration of natural vegetation in their neighboring areas. Jahangirnagar University J. Biol. Sci. 9(1 & 2): 91-108, 2020 (June & December)

Published

2021

30. Elevation and aspect determine the differences in soil properties and plant species diversity on Himalayan mountain summits

Author

C. P. Singh, Maroof Hamid, Anzar A. Khuroo, Akhtar H. Malik, and Rameez Ahmad

Subjects

Ecology, Plant species diversity, Elevation, Environmental science, Soil properties, Ecology, Evolution, Behavior and Systematics

Published

2021

31. The Effects of Disturbance on Forest Plant Species Diversity: A Review

Subjects

Disturbance (geology), Ecology, Plant species diversity, Biology

Published

2021

32. Research Progress on the Effects of Environmental Factors and Community Dynamics on Plant Species Diversity

Subjects

Community dynamics, Ecology, Plant species diversity, Biology

Published

2021

33. Diversity of vascular plants native to the Ulleungdo and Dokdo Islands in Korea

Author

Hyeon Min Kim, Jaemin Chung, and Jae-Kwon Shin

Subjects

Vascular plant, 0106 biological sciences, Population, 010607 zoology, Endangered species, Plant species diversity, Plant Science, Biology, Subspecies, 010603 evolutionary biology, 01 natural sciences, lcsh:QH540-549.5, Endemism, education, Ecology, Evolution, Behavior and Systematics, education.field_of_study, Ecology, Sustainable strategy, food and beverages, Ulleungdo and Dokdo islands, Native plant, Endemic plant, Taxon, Flora, Insect Science, Animal Science and Zoology, lcsh:Ecology

Abstract

The native vascular plants on Ulleungdo and Dokdo islands in Korea were investigated with the objective of determining conservation priorities and establishing a sustainable strategy for conservation of the plant species diversity. A total of 2,058 voucher specimens collected were identified and listed the diversity of plant species of each island. And the species composition, life forms, and rare and endemic species were characterized with respect to the plant species list. The vascular plants native to Ulleungdo island were surveyed 494 taxa in total comprising 102 families, 306 genera, 427 species, 6 subspecies, 57 varieties, 5 forma, and 1 hybrid. Among these, the distribution of 30 taxa was newly identified. On Dokdo island, 58 taxa were recorded comprising 28 families, 49 genera, 47 species, 1 subspecies, 6 varieties, and 1 hybrid. The 496 and 58 taxa of vascular plants native to Ulleungdo and Dokdo islands were classified based on the genera of vascular of Korea (F.K.E.C. 2007), respectively. We provide details on those endangered plants characterized by small population sizes and numbers, and discuss measures for the conservation of plant species diversity on Ulleungdo and Dokdo island, with respect to these endangered plants in particular and to the native plants in general.

Published

2020

34. Promotion of plant species diversity of artificial plantations in Korean national parks through thinning

Author

So Yeon Cho, Yeonsook Choung, and Hyeon-Ho Myeong

Subjects

Thinning intensity, Understory, Ecology, Thinning, media_common.quotation_subject, Biodiversity, Plant species diversity, Forestry, Herbaceous stratum, Plant Science, Herbaceous plant, Forest tending, Geography, Promotion (rank), lcsh:QH540-549.5, Insect Science, Plant species, Regeneration, Animal Science and Zoology, lcsh:Ecology, Ecology, Evolution, Behavior and Systematics, Global biodiversity, Stratum, media_common

Abstract

A considerable area of plantation existed in the Korean national parks. Issues such as heterogeneity with the surrounding environment and susceptibility to disturbances have been raised. Therefore, Park Service implemented a large-scale thinning practice with 15 parks and monitored the effects for five years. We meta-analyzed the five-year report of six parks and evaluated the effects on the biodiversity of herbaceous stratum. Repeated measures ANOVA showed that the number of plant species increased significantly over time particularly from the fourth year. It differed significantly among thinning intensities and parks. In heavy thinning (≥60%), it was twice higher than reference after one year, and the difference became larger over time. The coverage of the herbaceous stratum tended to be higher; however, it was not significantly different. Especially, after 5 years, both the number of species and coverage were higher than the reference in all thinning treatments. The proportion of short-lived species was significantly higher after one year in heavy thinning but was not significant after 5 years. Overall, this thinning practice increased biodiversity in plantations without letting proliferation of alien or disturbing species. Thus, thinning practice was successful that led to species composition similar to that of the natural forests.

Published

2020

35. InDel marker based genetic differentiation and genetic diversity in traditional rice (Oryza sativa L.) landraces of Chhattisgarh, India.

Author

Sahu, Parmeshwar Kumar, Mondal, Suvendu, Sharma, Deepak, Vishwakarma, Gautam, Kumar, Vikash, and Das, Bikram Kishore

Subjects

*RICE varieties, *PLANT species diversity, *AGRICULTURAL ecology, *AGRICULTURE, RICE genetics

Abstract

Rice has been cultivating and utilizing by humans for thousands of years under diverse environmental conditions. Therefore, tremendous genetic differentiation and diversity has occurred at various agro-ecosystems. The significant indica–japonica differentiation in rice provides great opportunities for its genetic improvement. In the present investigation, a total of 42 polymorphic InDel markers were used for differentiating 188 rice landraces and two local varieties of Chhattisgarh, India into indica and japonica related genotypes based on ‘InDel molecular index’. Frequency of japonica alleles varied from 0.11 to 0.89 among landraces. Results revealed that 104 rice landraces have indica type genetic architecture along with three tested indica cultivars Swarna, Mahamaya and Rajeshwari. Another 60 landraces were placed under ‘close to indica’ type. It was found that three rice landraces i.e. Kalajeera, Kapri, Tulsimala were ‘close to japonica’ type and 21 landraces were ‘intermediate’ type. The result from the calculation of ‘InDel molecular index’ was further verified with STRUCTURE, AMOVA, PCA and cluster analysis. Population structure analysis revealed two genetically distinct populations within the 190 rice landraces/genotypes. Based on AMOVA, ‘intermediate’ type, ‘close to japonica’ type and Dongjinbyeo (a japonica cultivar from Republic of Korea) displayed significant genetic differentiation (ɸPT = 0.642, P = 0.000) from ‘indica’ and ‘close to indica’ groups. The PCA scatter plot and dendrogram demonstrated a clear pattern of two major group differentiations. ‘Close to japonica’ type and ‘intermediate’ type landraces/genotypes were grouped with Dongjinbyeo and formed a separate cluster at 30% Jaccard’s similarity level from rest of the landraces/genotypes which were ‘close to indica’ or ‘indica’ type. Such a significant genetic differentiation among the locally adapted landraces could be exploited for the development of rice varieties introgressing higher yield potential and better plant types of japonica type as per the need of consumers and rice traders. [ABSTRACT FROM AUTHOR]

Published

2017

36. Molecular genetic diversity and population structure of Ethiopian white lupin landraces: Implications for breeding and conservation.

Author

Atnaf, Mulugeta, Yao, Nasser, Martina, Kyalo, Dagne, Kifle, Wegary, Dagne, and Tesfaye, Kassahun

Subjects

*LUPINUS albus, *MOLECULAR genetics, *PLANT diversity, *PLANT breeding, *PLANT species diversity

Abstract

White lupin is one of the four economically important species of the Lupinus genus and is an important grain legume in the Ethiopian farming system. However, there has been limited research effort to characterize the Ethiopian white lupin landraces. Fifteen polymorphic simple sequence repeat (SSR) markers were used to assess the genetic diversity and population structure of 212 Ethiopian white lupin (Lupinus albus) landraces and two genotypes from different species (Lupinus angustifolius and Lupinus mutabilis) were used as out-group. The SSR markers revealed 108 different alleles, 98 of them from 212 landraces and 10 from out-group genotypes, with an average of 6.5 alleles per locus. The average gene diversity was 0.31. Twenty eight landraces harbored one or more private alleles from the total of 28 private alleles identified in the 212 white lupin accessions. Seventy-seven rare alleles with a frequency of less than 5% were identified and accounted for 78.6% of the total alleles detected. Analysis of molecular variance (AMOVA) showed that 92% of allelic diversity was attributed to individual accessions within populations while only 8% was distributed among populations. At 70% similarity level, the UPGMA dendrogram resulted in the formation of 13 clusters comprised of 2 to 136 landraces, with the out-group genotypes and five landraces remaining distinct and ungrouped. Population differentiation and genetic distance were relatively high between Gondar and Ethiopian white lupin populations collected by Australians. A model-based population structure analysis divided the white lupin landraces into two populations. All Ethiopian white lupin landrace populations, except most of the landraces collected by Australians (77%) and about 44% from Awi, were grouped together with significant admixtures. The study also suggested that 34 accessions, as core collections, were sufficient to retain 100% of SSR diversity. These accessions (core G-34) represent 16% of the whole 212 Ethiopian white lupin accessions and populations from West Gojam, Awi and Australian collections contributed more accessions to the core collection. [ABSTRACT FROM AUTHOR]

Published

2017

37. Phylogeography and genetic effects of habitat fragmentation on endemic Urophysa (Ranunculaceae) in Yungui Plateau and adjacent regions.

Author

Xie, Deng-Feng, Li, Min-Jie, Tan, Jin-Bo, Price, Megan, Xiao, Qun-Ying, Zhou, Song-Dong, Yu, Yan, and He, Xing-Jin

Subjects

*ENDEMIC plants, *ANGIOSPERMS, *PLANT species diversity, *HABITATS, *PHYLOGEOGRAPHY

Abstract

Urophysa is a Chinese endemic genus with only two species (U. rockii and U. henryi) distributed in Yungui Plateau (Guizhou Province) and adjacent regions (i.e., Provinces of Hunan, Hubei, Chongqing and Sichuan). The aim of this study was to determine the genetic diversity and population differentiation within Urophysa and investigate the effect of the Yungui Plateau uplift and climate oscillations on evolution of Urophysa. In this study, micro-morphological characteristics, nine microsatellite loci (SSR), two nuclear loci (ITS and ETS) and two chloroplast fragments (psbA-trnH and trnL-trnF) were used to analyze the phylogenetic relationships and assess genetic and phylogeographical structure of Urophysa. Isolation by distance (IBD) was performed to research the effects of geographical isolation. We detected high genetic diversity at the species level but low genetic diversity within populations. Striking genetic differentiation (AMOVA) among populations and a significant phylogeographical structure (NST > GST, p < 0.01) were detected among U. henryi populations, along with significant effects of isolation by distance (IBD). Molecular clock estimation using calibration strategy and cpDNA substitution rate indicated that the divergence of U. henryi occurred during late Miocene to early Quaternary, when the orogeny of Yungui Plateau was violent. U. rockii originated at the early Quaternary and further differentiated at early Pleistocene. Our results suggested that habitat fragmentation played an important role in the genetic diversity and population differentiation of U. rockii and U. henryi. Heterogenous geomorphological configuration and complicated environment resulted from rapid uplift of the Yungui Plateau were inferred as important incentives for the modern phylogeograhpical pattern and species divergence of Urophysa. The geographical isolation, limited gene flow, specialized morphologies and the Pleistocene climatic oscillation greatly contributed to the allopatric divergence of U. rockii. Significant genetic drift and inbreeding were detected in these two species, in situ measures should be implemented to protect them. [ABSTRACT FROM AUTHOR]

Published

2017

38. Modelling patterns of pollinator species richness and diversity using satellite image texture.

Author

Hofmann, Sylvia, Everaars, Jeroen, Schweiger, Oliver, Frenzel, Mark, Bannehr, Lutz, and Cord, Anna F.

Subjects

*POLLINATORS, *PLANT species diversity, *REMOTE-sensing images, *COST effectiveness, *SURFACE roughness, *PLANT communities

Abstract

Assessing species richness and diversity on the basis of standardised field sampling effort represents a cost- and time-consuming method. Satellite remote sensing (RS) can help overcome these limitations because it facilitates the collection of larger amounts of spatial data using cost-effective techniques. RS information is hence increasingly analysed to model biodiversity across space and time. Here, we focus on image texture measures as a proxy for spatial habitat heterogeneity, which has been recognized as an important determinant of species distributions and diversity. Using bee monitoring data of four years (2010–2013) from six 4 × 4 km field sites across Central Germany and a multimodel inference approach we test the ability of texture features derived from Landsat-TM imagery to model local pollinator biodiversity. Textures were shown to reflect patterns of bee diversity and species richness to some extent, with the first-order entropy texture and terrain roughness being the most relevant indicators. However, the texture measurements accounted for only 3–5% of up to 60% of the variability that was explained by our final models, although the results are largely consistent across different species groups (bumble bees, solitary bees). While our findings provide indications in support of the applicability of satellite imagery textures for modeling patterns of bee biodiversity, they are inconsistent with the high predictive power of texture metrics reported in previous studies for avian biodiversity. We assume that our texture data captured mainly heterogeneity resulting from landscape configuration, which might be functionally less important for wild bees than compositional diversity of plant communities. Our study also highlights the substantial variability among taxa in the applicability of texture metrics for modelling biodiversity. [ABSTRACT FROM AUTHOR]

Published

2017

39. Vascular plant diversity structures bryophyte colonization in experimental grassland.

Author

Fergus, Alexander J.F., Gerighausen, Uta, Roscher, Christiane, and Michalet, Richard

Subjects

*VASCULAR plants, *PLANT species diversity, *BRYOPHYTE ecology, *PLANT colonization, *ECOLOGY, *GRASSLANDS

Abstract

Questions Numerous grassland biodiversity experiments have explored how plant diversity influences colonization by vascular plants, but no such studies have examined how sown vascular plant diversity structures colonization by bryophytes, which can contribute greatly to grassland diversity. Location Grassland biodiversity experiment (Jena Experiment), Germany. Methods We studied bryophyte composition in experimental grasslands encompassing a gradient of vascular plant species richness (1, 2, 4, 8, 16 and 60 species), functional group richness and composition (one to four; grasses, legumes, tall herbs, small herbs) as well as in additional bare ground and spontaneously colonized plots and semi-natural control meadows. Results Increasing vascular plant species richness and functional group richness as well as the presence of legume species decreased bryophyte species richness and increased the spatial variability of this richness. Bryophyte species richness and cover responded positively to grass presence, which also decreased the spatial variability of both. The proportion of acrocarpous species was largest in bare ground plots and decreased with increasing vascular plant species richness and with grass and legume presence. Non-metric multidimensional scaling revealed that bryophyte species composition followed the gradient in sown vascular plant species richness and was dependent on grass and legume presence. The effect of plant diversity on bryophytes was only partly attributable to increased vascular plant species cover. Bryophyte habitat indicator values suggested that conditions in communities of higher vascular plant diversity that included grasses were more shady, moist and nutrient-rich than in communities with lower vascular plant diversity and without grasses, whereas bryophyte assemblages in communities with legumes indicated well-lit nutrient-rich conditions. Even after 6 yr, bryophyte species richness and cover was considerably lower in experimental grasslands than in semi-natural meadows, suggesting a role for dispersal limitation or habitat filtering. Conclusions Our study shows that bryophyte colonization is not random, rather it is structured by vascular plant species diversity and composition. Not all components of a plant community respond positively to increased vascular plant diversity and advocating increased richness of one taxonomic group over another in grassland may reduce net species diversity. [ABSTRACT FROM AUTHOR]

Published

2017

40. A farewell to Tortella bambergeri (Pottiaceae) as understood over the last decades.

Author

Köckinger, Heribert and Hedenäs, Lars

Subjects

*POTTIACEAE, *PLANT morphology, *PLANT classification, *PLANT species diversity, *PLANT hybridization

Abstract

Molecular sequence data provide convincing evidence thatTortella bambergeri(Schimp.) Broth., as understood over the last three decades, consists of two species. On the other hand, a careful investigation of the holotype ofTrichostomum bambergeriSchimp. revealed its synonymy withTortella tortuosa(Hedw.) Limpr. (in its current broad sense), which was confirmed by the molecular sequences of two plants from the Alps that were morphologically similar to theT. bambergeritype and that proved to be unrelated to the European plants currently so named. ForT. bambergeriauct., two validly described names were located,T. fasciculata(Culm.) Culm., a suboceanic-submediterranean floristic element, andT. pseudofragilis(Thér.) Köckinger & Hedenäs,comb. nov., a boreo-montane element. Lectotypes for these two names are designated. Beside molecular differences, the two species can be distinguished mainly by having differently shaped cells on the upper leaf margin and by differences in the orientation of the dry leaves. Distribution and ecology of these two taxa are discussed. A key toTortella(Müll.Hal.) Limpr. species with quadrate superficial cells on the dorsal, upper costa is provided. Hybrid sporophytes inT. pseudofragilis, withT. tortuosa(Hedw.) Limpr. as the male parent, are discussed in the light of other observations, including an apparent hybridT. pseudofragilis × inclinatafrom Sweden, suggesting that hybridisation may be important in the evolution withinTortella. [ABSTRACT FROM PUBLISHER]

Published

2017

41. Disentangling the influence of environmental and anthropogenic factors on the distribution of endemic vascular plants in Sardinia.

Author

Fois, Mauro, Fenu, Giuseppe, Cañadas, Eva Maria, and Bacchetta, Gianluigi

Subjects

*PLANT conservation, *PLANT species diversity, *ENDEMIC plants, *ORGANISMS

Abstract

Due to the impelling urgency of plant conservation and the increasing availability of high resolution spatially interpolated (e.g. climate variables) and categorical data (e.g. land cover and vegetation type), many recent studies have examined relationships among plant species distributions and a diversified set of explanatory factors; nevertheless, global and regional patterns of endemic plant richness remain in many cases unexplained. One such pattern is the 294 endemic vascular plant taxa recorded on a 1 km resolution grid on the environmentally heterogeneous island of Sardinia. Sixteen predictors, including topographic, geological, climatic and anthropogenic factors, were used to model local (number of taxa inside each 1 km grid cell) Endemic Vascular Plant Richness (EVPR). Generalized Linear Models were used to evaluate how each factor affected the distribution of local EVPR. Significant relationships with local EVPR and topographic, geological, climatic and anthropogenic factors were found. In particular, elevation explained the larger fraction of variation in endemic richness but other environmental factors (e.g. precipitation seasonality and slope) and human-related factors (e.g. the Human Influence Index (HII) and the proportion of anthropogenic land uses) were, respectively, positively and negatively correlated with local EVPR. Regional EVPR (number of endemic taxa inside each 100 m elevation interval) was also measured to compare local and regional EVPR patterns along the elevation gradient. In contrast to local, regional EVPR tended to decrease with altitude partly due to the decreasing area covered along altitude. The contrasting results between local and regional patterns suggest that local richness increases as a result of increased interspecific aggregation along altitude, whereas regional richness may depend on the interaction between area and altitude. This suggests that the shape and magnitude of the species-area relationship might vary with elevation. This work provides—for the first time in Sardinia—a comprehensive analysis of the influence of environmental factors on the pattern of EVPR in the entire territory, from sea level to the highest peaks. Elevation, as well as other environmental and human-related variables, were confirmed to be influencing factors. In addition, variations of EVPR patterns at regional-to-local spatial scales inspire next investigations on the possible interaction between elevation and area in explaining patterns of plant species richness. [ABSTRACT FROM AUTHOR]

Published

2017

42. The role of remnant trees in carbon sequestration, vegetation structure and tree diversity of early succession regrowing fallows in eastern Sierra Leone.

Author

Cuni Sanchez, Aida and Lindsell, Jeremy A.

Subjects

*CARBON sequestration in forests, *VEGETATION patterns, *PLANT succession, *FOREST degradation, *PLANT species diversity, *ECOLOGY

Abstract

Remnant tree presence affects forest recovery after slash-and-burn agriculture. However, little is known about its effect on above-ground carbon stocks, especially in Africa. We focused our study on Sierra Leone, part of the Upper Guinean forests, an important centre of endemism threatened by encroachment and forest degradation. We studied 99 (20-m-radius) plots aged 2-10 years with and without remnant trees and compared their above-ground carbon stocks, vegetation structure (stem density, basal area) and tree diversity. Above-ground carbon stocks, stem density, basal area, species richness and tree diversity increased significantly with fallow age. Remnant tree presence affected significantly tree diversity, species dominance and above-ground carbon stocks, but not vegetation structure (stem density, basal area). Number of remnant trees and number of species of remnant trees were also important explanatory variables. Although other factors should be considered in future studies, such as the size and dispersal modes of remnant trees, our results highlight that more strategic inclusion of remnant trees is likely to favour carbon stock and forest recovery in old fallows. To our knowledge, this is the first study on early succession regrowing fallows in West Africa. [ABSTRACT FROM AUTHOR]

Published

2017

43. Integrating the effects of latitude and altitude on the spatial differentiation of plant community diversity in a mountainous ecosystem in China.

Author

Xu, Manhou, Ma, Li, Jia, Yanyan, and Liu, Min

Subjects

*PLANT species diversity, *PLANT communities, *PLANT ecology, *PHYTOGEOGRAPHY

Abstract

Varying patterns of plant community diversity along geographical gradients are a significant topic in biodiversity research. Here, to explore the integrated effects of latitude and altitude on the plant community diversity in a mountainous ecosystem, we set Guancen Mountain in the northern section, Guandi Mountain in the middle section, and Wulu Mountain in the southern section of the Lvliang Mountains as study areas, and the plant community diversity (basal diameter and height of tree and species diversity indices of shrub and herb) was measured horizontally at different latitude gradients and vertically at different altitude gradients in late July 2015. The results showed that (1) the trees were taller and wider at the middle latitude and higher altitude with a stronger spatial heterogeneity in the structures along the latitudinal and altitudinal gradients. The evergreen tree growth preceded that of the deciduous trees in the higher latitude and lower altitude regions, whereas the deciduous tree growth preceded that of the evergreen trees in the middle latitude and higher altitude regions. (2) Shrubs and herbs tended to grow well in the lower latitude and middle-lower altitude regions. The shrubs had a larger species diversity at lower latitude and lower altitude, but the species diversity of the herbs was not sensitive to the influences of the latitudinal and altitudinal gradients. With the latitude and altitude increasing, perennial herbs tended to grow well at higher latitude and higher altitude, while annual herbs tended to thrive at the middle latitude and lower altitude. In conclusion, environmental deviations caused by latitudinal and altitudinal gradients had great influences on the spatial distributions of the plant community diversity in the Lvliang Mountains. [ABSTRACT FROM AUTHOR]

Published

2017

44. Species Diversity Effects on Productivity, Persistence and Quality of Multispecies Swards in a Four-Year Experiment.

Author

Jing, Jingying, Søegaard, Karen, Cong, Wen-Feng, and Eriksen, Jørgen

Subjects

*PLANT species diversity, *ORGANIC compounds, *SLURRY, *BOTANICAL nomenclature, *BIOLOGICAL nomenclature

Abstract

Plant species diversity may benefit natural grassland productivity, but its effect in managed grassland systems is not well understood. A four-year multispecies grassland experiment was conducted to investigate the effect of species diversity–legumes and non-leguminous forbs–on productivity, persistence and sward quality under cutting or grazing regimes and with or without slurry application. Three mixtures were established– 3-mix: grass, red and white clover, 10-mix: 3-mix plus birdsfoot trefoil and six non-leguminous forbs, and 12-mix: 10-mix plus lucerne and festulolium. Species diversity increased sward production and yield persistence under cutting regime. The 12-mix had the highest yield from the second year onwards and no statistically significant yield reduction over four years, while annual yields in the 3-mix and 10-mix decreased significantly with increasing grassland age. The higher yield in the 12-mix was mainly due to the inclusion of high-yielding lucerne. The 10-mix and 12-mix had lower proportions of unsown species than the 3-mix, the difference being dependent on grassland age. Generally, the 3-mix had higher concentrations of in-vitro organic matter digestibility (IVOMD), neutral detergent fiber (NDF) and crude protein (CP), and a lower concentration of ash than the 10-mix and 12-mix. Slurry application increased annual yield production by 10% and changed the botanical composition, increasing the proportion of grass and decreasing the proportion of legumes. Compared to cutting, grazing increased forage production by 9% per cut on average and lowered legume and forb proportions in the mixtures, but yields did not differ among the three mixtures. Overall, our results suggest that species diversity increases sward productivity and persistence only under an ungrazed cutting regime. We conclude that increasing species diversity by selecting appropriate species with compatible management is key to achieving both high yields and high persistence in managed grasslands. [ABSTRACT FROM AUTHOR]

Published

2017

45. Hybrid ecosystems can contribute to local biodiversity conservation.

Author

Kasari, Liis, Saar, Liina, Bello, Francesco, Takkis, Krista, and Helm, Aveliina

Subjects

BIODIVERSITY conservation, PLANT species diversity, PLANT habitats, ECOLOGY, GRASSLANDS, RESTORATION ecology

Abstract

Calcareous grasslands have become severely threatened habitats in Europe. The aim of this study was to investigate the changes in plant species richness, and functional and phylogenetic diversity in northern Estonian calcareous (alvar) grasslands resampled after 90 years of land-use change. Functional traits characterizing species that have benefited most from decreased habitat area and altered environmental conditions, and additional species that can potentially inhabit the remaining grassland patches were identified. Also changes in the relative amount of habitat-specific species were studied to detect a possible decrease in habitat integrity. Although grasslands in the studied region had lost most of their original area (~90 %), species richness had substantially increased due to invasion by more competitive, nutrient-demanding native species. Functional diversity generally increased, whereas phylogenetic diversity showed no response to altered conditions. Overall, these grasslands have lost their integrity as calcareous grassland habitat type in the region, because the relative amount of habitat-specific characteristic species has declined significantly. However, although the grasslands have transformed to a 'hybrid' habitat type and restoration to their previous state is likely not reasonable, such degraded species-rich grassland fragments can still be recognized as important habitats to preserve high local biodiversity and several characteristic species of calcareous grasslands. As current landscapes consist of an increasing number of hybrid and novel communities, new tools to supplement traditional conservation or restoration practices are necessary to recognize and maintain regions and habitats of high local biodiversity. [ABSTRACT FROM AUTHOR]

Published

2016

46. Ants as Ecosystem Engineers in Natural Restoration of Human Made Habitats

Author

Kovář Pavel, Vojtíšek Pavel, and Zentsová Irena

Subjects

human-made habitats, industrial-waste deposits, abandoned tailings containment, primary vegetation succession, plant species diversity, dispersal of plant seeds, ant-plant interaction, myrmecochory, ecosystem engineers, bioturbation, Ecology, QH540-549.5

Abstract

Three to four dominant seed-transporting ant species of different size categories (Tetramorium caespitum, Lasius niger, Formica rufibarbis/Formica pratensis) on the plateau of abandoned ore sedimentation basin (tailings containment) were studied as pioneer and subsequent colonisers of this industrial waste deposit, from the viewpoint of their functioning in plant seed dispersal. We examined the role of ants in primary vegetation succession. Experiments of seed removal by ants with plant species found within close proximity of tailings were related to the succession. Ant activity generates a considerable shift in the quality of the colonised surface, as they collectively act as ecosystem engineers

Published

2013

47. Putting the genes into community genetics.

Author

Wimp, Gina M., Tomasula, Jewel, and Hamilton, Matthew B.

Subjects

*ECOLOGY, *GENETICS, *PLANT genes, *PLANT variation, *POPULUS tremuloides, *INSECT diversity, *PLANT species diversity

Abstract

As part of the long‐term fusion of evolutionary biology and ecology (Ford, 1964), the field of community genetics has made tremendous progress in describing the impacts of plant genetic variation on community and ecosystem processes. In the "genes‐to‐ecosystems" framework (Whitham et al., 2003), genetically based traits of plant species have ecological consequences, but previous studies have not identified specific plant genes responsible for community phenotypes. The study by Barker et al. (2019) in this issue of Molecular Ecology uses an impressive common garden experiment of trembling aspen (Figure 1) to test for the genetic basis of tree traits that shape the insect community composition. Using a Genome‐Wide Association Study (GWAS), they found that genomic regions associated with phytochemical traits best explain variation in herbivore community composition, and identified specific genes associated with different types of leaf‐modifying herbivores and ants. This is one of the first studies to identify candidate genes underlying the heritable plant traits that explain patterns of insect biodiversity. [ABSTRACT FROM AUTHOR]

Published

2019

48. Woody plant species diversity of the coastal forests of Kenya: filling in knowledge gaps in a biodiversity hotspot

Author

Staline Kibet, Bernerd Fulanda, Piero Zannini, Paul Matiku, Martin Wiemers, Maria Fungomeli, Alessandro Chiarucci, Marcus Vinicius Cianciaruso, Musingo T. E. Mbuvi, Anthony Githitho, Fabrizio Frascaroli, Fungomeli M., Cianciaruso M., Zannini P., Githitho A., Frascaroli F., Fulanda B., Kibet S., Wiemers M., Mbuvi M.T., Matiku P., and Chiarucci A.

Subjects

0106 biological sciences, Plant Science, 010603 evolutionary biology, 01 natural sciences, sacred forest, parasitic diseases, species richness, Endemism, Ecology, Evolution, Behavior and Systematics, Plant diversity, Ecology, plant species diversity, 010604 marine biology & hydrobiology, fungi, conservation, Biodiversity knowledge, food and beverages, Species diversity, coastal forest, Kenya, Biodiversity hotspot, Geography, Conservation status, Species richness, sampling gap, human activities, Woody plant, Global biodiversity

Abstract

The coastal forests of Kenya are global biodiversity hotspots known for rich plant diversity and endemism. They exist as fragmented forest islands, and their current conservation status and quantitative trends in plant diversity are understudied. We investigated these knowledge gaps by providing a comprehensive literature review and comparing to field data collected using standardized sampling protocol. Our goals were to build a robust basis for future analyses, biodiversity monitoring, and to understand the role of fragment area in determining species richness. We recorded a total of 937 woody species belonging to 88 families in 30 forest patches from reviewed and sampled data. Species richness per site from literature review was affected by biases in data scarcity, forest size and variation in sampling methods. In general, large forests reserves of Shimba hills and Arabuko exhibited a high number of cumulative species compared to smaller forest patches. Species-area relationship showed a significant proportion of species richness per forest was determined by forest area, according to Arrhenius model. This study is the first to review forest patch woody plant species diversity knowledge gaps in the coastal forests of Kenya, and the resulting comparison provides the first quantitative overview and foundation of these forests.

Published

2020

49. The impact of the plateau pika on the relationship between plant aboveground biomass and plant species richness

Author

Qian Wang, Zheng Gang Guo, and Xiao Pan Pang

Subjects

geography, Qinghai tibet plateau, Plateau, geography.geographical_feature_category, biology, Ecology, Plant species diversity, Soil Science, Development, biology.organism_classification, Plant productivity, Plant species, Environmental Chemistry, Species richness, Pika, Aboveground biomass, General Environmental Science

Published

2020

50. Plant species diversity in different altitudinal ranges of a very moist forest of coastal Eastern ghat in Odisha

Author

Harish Debta, Nirakar Bhol, and Santoshini Dash

Subjects

Geography, Ecology, Plant species diversity

Published

2020