Your search keyword '"Haldre S. Rogers"' showing total 23 results

1. Nest defense, personality, and fitness of a locally endangered island passerine

Author

Nicole M. Suckow, Henry S. Pollock, Mark E. Hauber, Martin Kastner, Julie A. Savidge, Kayla Baker, and Haldre S. Rogers

Subjects

Animal Science and Zoology, Ecology, Evolution, Behavior and Systematics

Published

2022

2. Chimpanzees as ecosystem service providers: Seed dispersal of an economically important plant resource

Author

William D. Aguado, Haldre S. Rogers, and Jill D. Pruetz

Subjects

Ecology, Evolution, Behavior and Systematics

Published

2022

3. Cascading Impacts of Seed Disperser Loss on Plant Communities and Ecosystems

Author

Haldre S. Rogers, Isabel Donoso, Evan C. Fricke, Anna Traveset, National Science Foundation (US), Alexander von Humboldt Foundation, Ministerio de Ciencia, Innovación y Universidades (España), and Agencia Estatal de Investigación (España)

Subjects

Ecology, Seed dispersal, Defaunation, Plant recruitment, fungi, food and beverages, Frugivory, Global change, Disperser, Plant community, Seed size, Biology, Frugivore, Plant species, Ecosystem, Ecology, Evolution, Behavior and Systematics

Abstract

Seed dispersal is key to the persistence and spread of plant populations. Because the majority of plant species rely on animals to disperse their seeds, global change drivers that directly affect animals can cause cascading impacts on plant communities. In this review, we synthesize studies assessing how disperser loss alters plant populations, community patterns, multitrophic interactions, and ecosystem functioning. We argue that the magnitude of risk to plants from disperser loss is shaped by the combination of a plant species’ inherent dependence on seed dispersal and the severity of the hazards faced by their dispersers. Because the factors determining a plant species’ risk of decline due to disperser loss can be related to traits of the plants and dispersers, our framework enables a trait-based understanding of change in plant community composition and ecosystem functioning. We discuss how interactions among plants, among dispersers, and across other trophic levels also mediate plant community responses, and we identify areas for future research to understand and mitigate the consequences of disperser loss on plants globally., This work was supported by the National Socio-Environmental Synthesis Center’s Postdoctoral Fellowship to E.C.F. under funding received from the National Science Foundation (DBI1639145), the Alexander von Humboldt Foundation Fellowship to I.D., and the Spanish Ministry of Science to A.T. (project CGL2017-88122-P).

Published

2021

4. The effects of dispersal, herbivory, and competition on plant community assembly

Author

Samantha A. Allbee, Haldre S. Rogers, and Lauren L. Sullivan

Subjects

Ecology, Evolution, Behavior and Systematics

Abstract

Dispersal is a key process in community assembly but is often considered separately from downstream assembly processes (e.g., competition, herbivory). However, dispersal varies by species and can interact with other assembly processes through establishment as species enter communities. Here, we sought to distinguish the role of dispersal in community assembly and its interaction with two biotic assembly processes: competition and herbivory. We used a tallgrass prairie restoration experiment that manipulated the competitive and herbivore environments while allowing for natural dispersal and establishment from a diverse regional species pool into areas of low diversity. Dispersal, competition, and herbivory all influenced local communities. By tracking the spread of four target species across the plots, we found interspecific and intraspecific differences in establishment patterns, with herbivores influencing the number of individuals present and the distances species moved. At the community level, only dispersal and competition significantly influenced alpha diversity, but all three processes additively influenced community composition. There was also evidence of herbivore-competition and herbivore-colonization trade-offs in our experiment. Some species that could tolerate herbivory were less likely to establish in competitive environments, while others that could tolerate herbivory were more likely to disperse greater distances. More work is needed to understand the contexts under which dispersal variation affects community assembly and its synergy with other processes.

Published

2022

5. Functional robustness of seed dispersal by a remnant frugivore population on a defaunated tropical island

Author

Evan C. Fricke, Haldre S. Rogers, Julie A. Savidge, Henry S. Pollock, and Martin Kastner

Subjects

education.field_of_study, Frugivore, Ecology, Seed dispersal, Population, Robustness (evolution), Biology, education, Ecology, Evolution, Behavior and Systematics

Published

2021

6. Drivers of Ecological and Evolutionary Disruptions in the Seed Dispersal Process: Research Trends and Biases

Author

Isabel Donoso, Evan C. Fricke, Sandra Hervías-Parejo, Haldre S. Rogers, Anna Traveset, Govern de les Illes Balears, and Ministerio de Ciencia e Innovación (España)

Subjects

Ecology, Fragmentation, Anthropogenic disturbance, Defaunation, Non-native species, Climate change, Dispersal failure, Habitat loss, Global change, Ecology, Evolution, Behavior and Systematics

Abstract

As the sole opportunity for most plants to move, seed dispersal influences the biodiversity and functioning of plant communities. Global change drivers have the potential to disrupt seed dispersal processes, affecting plant communities and ecosystem functions. Even though much information is available on the effects of seed dispersal disruption (SDD), we still lack a comprehensive understanding of its main causes at a global scale, as well as the potential knowledge gaps derived from research biases. Here we present a systematic review of biotic and abiotic SDDs to ascertain the global change drivers addressed, dispersal modes impacted, plant processes affected, and spatial focus of existing research on this topic up-to-date. Although there are many modes of dispersal and global change drivers in temperate and tropical ecosystems worldwide, research efforts have predominantly addressed the effect of alien species for biotic seed dispersal in temperate systems and oceanic islands as well as how defaunation of bird or mammal dispersers has affected seed removal in the Neotropics. SDD studies were also biased toward forest ecosystems, with few in shrublands or grasslands. Finally, the effects of climate change, ecological consequences at the whole community level, and evolutionary changes were largely unrepresented in SDD studies. These trends are likely due to a combination of true geographic and ecological patterns in seed dispersal and global change and bias in research focus. We conclude that increased research investment in the less-studied systems and a better understanding of potential synergies and feedback between multiple global change drivers will be important to forecast the threats to plant biodiversity and those ecosystem functions derived from seed dispersal in the Anthropocene., This work was supported by the Balearic Government to ID and SH-P, and the Spanish Ministry of Science to AT (project CGL2017-88122-P and PID2020-114324GB-C21).

Published

2022

7. Optimizing trilateration estimates for tracking fine‐scale movement of wildlife using automated radio telemetry networks

Author

Kristina L. Paxton, Kayla M. Baker, Zia B. Crytser, Ray Mark P. Guinto, Kevin W. Brinck, Haldre S. Rogers, and Eben H. Paxton

Subjects

Ecology, Ecology, Evolution, Behavior and Systematics, Nature and Landscape Conservation

Abstract

A major advancement in the use of radio telemetry has been the development of automated radio tracking systems (ARTS), which allow animal movements to be tracked continuously. A new ARTS approach is the use of a network of simple radio receivers (nodes) that collect radio signal strength (RSS) values from animal-borne radio transmitters. However, the use of RSS-based localization methods in wildlife tracking research is new, and analytical approaches critical for determining high-quality location data have lagged behind technological developments. We present an analytical approach to optimize RSS-based localization estimates for a node network designed to track fine-scale animal movements in a localized area. Specifically, we test the application of analytical filters (signal strength, distance among nodes) to data from real and simulated node networks that differ in the density and configuration of nodes. We evaluate how different filters and network configurations (density and regularity of node spacing) may influence the accuracy of RSS-based localization estimates. Overall, the use of signal strength and distance-based filters resulted in a 3- to 9-fold increase in median accuracy of location estimates over unfiltered estimates, with the most stringent filters providing location estimates with a median accuracy ranging from 28 to 73 m depending on the configuration and spacing of the node network. We found that distance filters performed significantly better than RSS filters for networks with evenly spaced nodes, but the advantage diminished when nodes were less uniformly spaced within a network. Our results not only provide analytical approaches to greatly increase the accuracy of RSS-based localization estimates, as well as the computer code to do so, but also provide guidance on how to best configure node networks to maximize the accuracy and capabilities of such systems for wildlife tracking studies.

Published

2022

8. Landscape configuration and frugivore identity affect seed rain during restoration

Author

Ethan Rose, Haldre S. Rogers, and Hugo Thierry

Subjects

Geography, Frugivore, Landscape structure, Ecology, Seed dispersal, Identity (social science), Affect (psychology), Ecology, Evolution, Behavior and Systematics

Published

2021

9. Såli (Micronesian starling –Aplonis opaca) as a key seed dispersal agent across a tropical archipelago

Author

Henry S. Pollock, Nicole M. Suckow, Julie A. Savidge, Evan M. Rehm, Haldre S. Rogers, Evan C. Fricke, and Martin Kastner

Subjects

0106 biological sciences, education.field_of_study, biology, Ecology, 010604 marine biology & hydrobiology, Seed dispersal, Population, Plant community, Native plant, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, Frugivore, Forest ecology, Aplonis, education, Ecology, Evolution, Behavior and Systematics, Boiga irregularis

Abstract

Seed dispersal is an important ecological process that structures plant communities and influences ecosystem functioning. Loss of animal dispersers therefore poses a serious threat to forest ecosystems, particularly in the tropics where zoochory predominates. A prominent example is the near-total extinction of seed dispersers on the tropical island of Guam following the accidental introduction of the invasive brown tree snake (Boiga irregularis), negatively impacting seedling recruitment and forest regeneration. We investigated frugivory by a remnant population of Såli (Micronesian starling –Aplonis opaca) on Guam and two other island populations (Rota, Saipan) to evaluate their ecological role as a seed disperser in the Mariana archipelago. Using a combination of behavioural observations, nest contents and fecal samples, we documented frugivory of 37 plant species. Native plants comprised the majority (66%) of all species and 90% of all seeds identified in fecal and nest contents. Diet was highly similar across age classes and sampling years. In addition, plant species consumed by Såli comprised 88% of bird-dispersed adult trees and 54% of all adult trees in long-term forest monitoring plots, demonstrating the Såli’s broad diet and potential for restoring native forests. Overall, we provide the most comprehensive assessment to date of frugivory by the Såli and confirm its importance as a seed disperser on Guam and throughout the Marianas.

Published

2020

10. Linking intra‐specific trait variation and plant function: seed size mediates performance tradeoffs within species

Author

Joshua J. Tewksbury, Haldre S. Rogers, and Evan C. Fricke

Subjects

0106 biological sciences, Ecology, 010604 marine biology & hydrobiology, Seed dispersal, Niche, Niche differentiation, food and beverages, Plant community, Biology, Fecundity, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, Seedling, Trait, Biological dispersal, Ecology, Evolution, Behavior and Systematics

Abstract

Substantial intra‐specific trait variation exists within plant communities, and in theory this variation could influence community dynamics. Although recent research has focused on intra‐specific variation in traits themselves, it is the influence of this variation on plant performance that makes intra‐specific trait variation relevant to ecological dynamics within or among species. Understanding the links between trait and performance variation, and the role of traits in mediating relationships among multiple components of performance, is critical for assessing the importance of intra‐specific trait variation for community dynamics. Seed size is thought to affect aspects of plant performance including fecundity, seedling growth, dispersal and tolerance of natural enemies. For two tropical tree species, we assessed how seed size was related to performance variation within each species and determined whether intra‐specific trait variation mediates intra‐specific performance tradeoffs. We used field seed rain collection to characterize size‐dependent outcomes of dispersal, sowed seeds of known size in soil collected near or far from conspecifics to characterize susceptibility to soil pathogens, and monitored growth of seedlings from seeds of known size. We found that intra‐specific seed size variation caused intra‐specific performance variation. The degree of trait‐based performance variation was consistently smaller than the degree of trait variation, and seed size influenced different components of performance for each species. One species exhibited a tradeoff in which small seeds had a fecundity advantage (more seedlings per unit reproductive mass) but produced smaller seedlings, whereas the other species exhibited a tradeoff in which small seeds dispersed to areas of low conspecific density but were less tolerant of density‐responsive natural enemies. Our results indicate that a single trait can influence multiple components of performance and can mediate different tradeoffs in co‐occurring species. Complex and heterogeneous effects of a single trait in multidimensional niche space may favour inter‐specific niche differentiation and coexistence.

Published

2019

11. Functional outcomes of mutualistic network interactions: A community‐scale study of frugivore gut passage on germination

Author

John Bender, Evan M. Rehm, Haldre S. Rogers, and Evan C. Fricke

Subjects

0106 biological sciences, Ecology, Plant Science, Biology, Network dynamics, 010603 evolutionary biology, 01 natural sciences, Ecological network, Frugivore, Germination, Seed predation, Trait, Biological dispersal, Ecosystem, Ecology, Evolution, Behavior and Systematics, 010606 plant biology & botany

Abstract

Current understanding of mutualistic networks is grounded largely in data on interaction frequency, yet mutualistic network dynamics are also shaped by interaction quality—the functional outcomes of individual interactions on reproduction and survival. The difficulty of obtaining data on functional outcomes has resulted in limited understanding of functional variation among a network's pairwise species interactions, of the study designs that are necessary to capture major sources of functional variation, and of predictors of functional variation that may allow generalization across networks. In this community‐scale study, we targeted a key functional outcome in plant–frugivore networks: the impact of frugivore gut passage on seed germination. We used captive frugivore feeding trials and germination experiments in an island ecosystem, attaining species‐level coverage across all extant native frugivores and the plants they consume to (a) assess sources of functional variation, (b) separate effects of pulp removal from those of scarification via gut passage, and (c) test trait‐based correlates of gut passage effect sizes. We found antagonistic seed predation effects of a frugivore previously assumed to be a seed disperser, highlighting the need to consider functional outcomes rather than interaction frequency alone. The other frugivores each exhibited similar impacts for individual plant species, with benefits primarily caused by pulp removal rather than scarification, supporting the use of animal functional groups in this context. In contrast, plant species varied widely in impacts of gut passage on germination. Species with smaller seeds and more frugivore partners had larger benefits of gut passage, showing promise for network metrics and functional traits to predict functional variation among plants. Synthesis. Combining network and demographic approaches, we assessed the degree and sources of variation in a key functional outcome of plant–frugivore interactions across an entire network. Using a detailed study design, our work shows how simpler study designs can capture primary sources of functional variation and that functional traits and network metrics may allow generalization across networks. Efficiently measuring and generalizing sources of functional variation within mutualistic networks will strengthen our ability to model network dynamics and predict mutualist responses to global change.

Published

2018

12. Landscape-level bird loss increases the prevalence of honeydew-producing insects and non-native ants

Author

Haldre S. Rogers, Micah G. Freedman, and Ross H. Miller

Subjects

0106 biological sciences, Honeydew, Insecta, Zoology, Biology, 010603 evolutionary biology, 01 natural sciences, Invasive species, Landscape level, Birds, Abundance (ecology), Honeydew-producing insects, Prevalence, Animals, Trophic cascade, Conservation Ecology–Original Research, Ecology, Evolution, Behavior and Systematics, Islands, Spider, Host (biology), Ants, 010604 marine biology & hydrobiology, 15. Life on land, Bird loss, Exclosure

Abstract

Bird exclusion experiments consistently show that birds exhibit strong top-down control of arthropods, including ants and the honeydew-producing insects (HPIs) that they tend. However, it remains unclear whether the results of these small-scale bird exclosure experiments can be extrapolated to larger spatial scales. In this study, we use a natural bird removal experiment to compare the prevalence of ants and HPIs between Guam, an island whose bird community has been extirpated since the 1980s due to the introduction of the brown tree snake, and two nearby islands (Rota and Saipan) that have more intact bird assemblages. Consistent with smaller-scale bird exclosure experiments, we show that (1) forest trees from Guam are significantly more likely to host HPIs than trees from Saipan and (2) ants are nearly four times as abundant on Guam than on both Saipan and Rota. The prevalence of HPIs varied slightly based on tree species identity, although these effects were not as strong as island-level effects associated with bird loss. Ant community composition differed between Guam and the other two islands. These results corroborate past observational studies showing increased spider densities on Guam and suggest that trophic changes associated with landscape-level bird extirpation may also involve alterations in the abundance of ants and HPIs. This study also provides a clear example of the strong indirect effects that invasive species can have on natural food webs. Electronic supplementary material The online version of this article (10.1007/s00442-018-4273-5) contains supplementary material, which is available to authorized users.

Published

2018

13. Differences among avian frugivores in seed dispersal to degraded habitats

Author

Evan M. Rehm, Haldre S. Rogers, Julie A. Savidge, and Janelle Chojnacki

Subjects

0106 biological sciences, Herbivore, Ecology, 010604 marine biology & hydrobiology, Seed dispersal, Ecotone, Biology, 010603 evolutionary biology, 01 natural sciences, Frugivore, Habitat, Deforestation, Biological dispersal, Restoration ecology, Ecology, Evolution, Behavior and Systematics, Nature and Landscape Conservation

Abstract

Vertebrate frugivores enhance tropical forest regeneration by dispersing seeds into degraded areas. However, the importance of individual species as dispersers may vary within a community. Management and restoration would benefit from understanding which species are critical in moving native seeds into degraded habitats. We compared habitat composition of bird start and end locations for movement intervals based on mean gut passage times for the avian frugivore community on the island of Saipan. The proportion of movement intervals that began in intact, native forest varied among species, with Golden White-eyes having the highest proportion. However, this species tended to remain in intact forest and only rarely crossed into degraded habitats. Bridled White-eyes and Mariana Fruit Doves exhibited slightly higher rates of crossing from intact forest to degraded habitats, suggesting an ability to disperse native seeds to degraded areas. White-throated Ground Doves were never recorded crossing from intact forest to degraded habitats. Despite having a low proportion of movement intervals beginning in intact forest, Micronesian Starlings showed a higher proportion and absolute number of movements from intact forest to degraded habitats, due to their propensity to move frequently, across long distances, and across habitat types. In this species-poor frugivore network, seed dispersal into degraded habitats appears highly dependent on one species within the community. Regeneration of degraded lands may be severely hindered if this key disperser is lost.

Published

2017

14. The effect of demographic correlations on the stochastic population dynamics of perennial plants

Author

Amy M. Iler, Bret D. Elderd, Aldo Compagnoni, Hans Jacquemyn, Haldre S. Rogers, Tom E. X. Miller, Emily L. Schultz, David W. Inouye, Brad M. Ochocki, Andrew J. Bibian, and Michelle E. Sneck

Subjects

0106 biological sciences, generalized linear mixed models (GLMM), VARIABLE ENVIRONMENTS, Perennial plant, hierarchical Bayes, integral projection model (IPM), Population, VITAL-RATES, Biology, Affect (psychology), 010603 evolutionary biology, 01 natural sciences, LIFE-HISTORIES, MONTE-CARLO, Population growth, demographic buffering, education, Ecology, Evolution, Behavior and Systematics, education.field_of_study, CLIMATE-CHANGE, stochastic population growth rate, Ecology, 010604 marine biology & hydrobiology, demographic correlation, GROWTH-RATE, INTEGRAL PROJECTION MODELS, REPRODUCTION, VARIABILITY, Population model, ENVIRONMENTAL STOCHASTICITY, Population projection, Vital rates, Sign (mathematics)

Abstract

Understanding the influence of environmental variability on population dynamics is a fundamental goal of ecology. Theory suggests that, for populations in variable environments, temporal correlations between demographic vital rates (e.g., growth, survival, reproduction) can increase (if positive) or decrease (if negative) the variability of year-to-year population growth. Because this variability generally decreases long-term population viability, vital rate correlations may importantly affect population dynamics in stochastic environments. Despite long-standing theoretical interest, it is unclear whether vital rate correlations are common in nature, whether their directions are predominantly negative or positive, and whether they are of sufficient magnitude to warrant broad consideration in studies of stochastic population dynamics. We used long-term demographic data for three perennial plant species, hierarchical Bayesian parameterization of population projection models, and stochastic simulations to address the following questions: (1) What are the sign, magnitude, and uncertainty of temporal correlations between vital rates? (2) How do specific pairwise correlations affect the year-to-year variability of population growth? (3) Does the net effect of all vital rate correlations increase or decrease year-to-year variability? (4) What is the net effect of vital rate correlations on the long-term stochastic population growth rate (λS)? We found only four moderate to strong correlations, both positive and negative in sign, across all species and vital rate pairs; otherwise, correlations were generally weak in magnitude and variable in sign. The net effect of vital rate correlations ranged from a slight decrease to an increase in the year-to-year variability of population growth, with average changes in variance ranging from -1% to +22%. However, vital rate correlations caused virtually no change in the estimates of λS (mean effects ranging from -0.01% to +0.17%). Therefore, the proportional changes in the variance of population growth caused by demographic correlations were too small on an absolute scale to importantly affect population growth and viability. We conclude that in our three focal populations and perhaps more generally, vital rate correlations have little effect on stochastic population dynamics. This may be good news for population ecologists, because estimating vital rate correlations and incorporating them into population models can be data-intensive and technically challenging. This article is protected by copyright. All rights reserved.

Published

2016

15. Varied abundance and functional diversity across native forest bird communities in the Mariana Islands

Author

Haldre S. Rogers, Evan C. Fricke, and Ethan Linck

Subjects

education.field_of_study, geography.geographical_feature_category, Ecology, Seed dispersal, Population, Population density, Geography, Habitat, Abundance (ecology), Archipelago, Animal Science and Zoology, Ecosystem, Species richness, education, Ecology, Evolution, Behavior and Systematics

Abstract

The Mariana islands have a species-poor but functionally diverse and largely endemic bird assemblage that varies due to biogeographic legacy and anthropogenic impacts. The largest island in the chain, Guam, is the setting for one of the most extreme examples of recent avian population declines, indicating the capacity for avifaunal collapse and loss of function in neighboring islands. We performed a systematic survey of resident land birds in remnant karst forest on the Mariana Islands' 3 largest islands following Guam to assess the status of the avifauna in this habitat, characterize inter-island heterogeneity in bird communities, and consider the resulting differences in the functional roles of birds across the archipelago's native forests. We identified significantly greater functional diversity on Rota than either Saipan or Tinian, but lower bird population densities, species richness, and Shannon diversity. We recommend continued monitoring of avian population trends across the archipelago and assessments of ecosystem functions like pollination, seed dispersal, and food web dynamics.

Published

2020

16. Leveraging nature's backup plans to incorporate interspecific interactions and resilience into restoration

Author

Keryn B. Gedan, Clare E. Aslan, Truman P. Young, Haldre S. Rogers, Jedediah F. Brodie, Todd M. Palmer, and Judith L. Bronstein

Subjects

0106 biological sciences, Mutualism (biology), Adaptive capacity, Ecology, Community, business.industry, 010604 marine biology & hydrobiology, Environmental resource management, Interspecific competition, Biology, 010603 evolutionary biology, 01 natural sciences, Species of concern, Trait, business, Restoration ecology, Ecology, Evolution, Behavior and Systematics, Organism, Nature and Landscape Conservation

Abstract

Interspecific interactions are important structuring forces in ecological communities. Interactions can be disturbed when species are lost from a community. When interactions result in fitness gains for at least one participating organism, that organism may experience reduced fitness as a result of interaction disturbance. However, many species exhibit traits that enable individuals to persist and reproduce in spite of such disruptions, resulting in resilience to interaction disturbance. Such traits can result in interaction generalization, phenotypic and behavioral plasticity, and adaptive capacity. We discuss examples of these traits and use case studies to illustrate how restoration practitioners can use a trait-based approach to examine species of concern, identify traits that are associated with interspecific interactions and are relevant to resilience, and target such traits in restoration. Restoration activities that bolster interaction resilience could include, for example, reintroducing or supporting specific functional groups or managing abiotic conditions to reduce interaction dependence by at-risk species (e.g. providing structural complexity offering shelter and cover). Resilience may also be an important consideration in species selection for restoration. Establishment of resilient species, able to persist after interaction disturbance, may be essential to restoring to a functioning ecological community. Once such species are present, they could help support more specialized species that lack resilience traits, such as many species of concern. Understanding the conditions under which processes linked to resilience may enable species to persist and communities to reform following interaction disturbance is a key application of community ecology to ecological restoration.

Published

2016

17. Seed-dispersal networks are more specialized in the Neotropics than in the Afrotropics

Author

Marco Aurélio Pizo, Larissa Nowak, Katrin Böhning-Gaese, Mauro Galetti, Maximilian G. R. Vollstädt, Daniel García, Ingo Grass, Fernando R Silva, Vinicio Santillán, Marcia Muñoz, Fábio André Facco Jacomassa, Francisco Saavedra, Rubén H. Heleno, Augusto João Piratelli, Eike Lena Neuschulz, Evan C. Fricke, Marta Quitián, Catherine Moran, Pedro G. Blendinger, D. Matthias Dehling, Matthias Schleuning, Nina Farwig, Rocío Sánchez, Suelen Moraes, Marta Correia, Mariano S. Sánchez, Anna Traveset, Lackson Chama, Sérgio Timóteo, Román A. Ruggera, Carine Emer, Haldre S. Rogers, Dana G. Schabo, Phillip J. Dugger, Center for Tropical Studies and Conservation (US), Robert Bosch Foundation, German Research Foundation, Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (Brasil), Fundação de Amparo à Pesquisa do Estado de São Paulo, Conselho Nacional de Desenvolvimento Científico e Tecnológico (Brasil), Consejo Nacional de Investigaciones Científicas y Técnicas (Argentina), Fondo para la Investigación Científica y Tecnológica (Argentina), Colciencias (Colombia), and Ministerio de Economía y Competitividad (España)

Subjects

0106 biological sciences, Neotropics, Seed dispersal, Biology, 010603 evolutionary biology, 01 natural sciences, Birds, Frugivore, Mutualism, Ecosystem, mammals, ecological networks, frugivory, Ecology, Evolution, Behavior and Systematics, Macroecology, Mutualism (biology), Global and Planetary Change, Ecology, 010604 marine biology & hydrobiology, Niche differentiation, 15. Life on land, Ecological network, seed dispersal, Taxon, macroecology, Afrotropics

Abstract

[Aim] Biogeographical comparisons of interaction networks help to elucidate differences in ecological communities and ecosystem functioning at large scales. Neotropical ecosystems have higher diversity and a different composition of frugivores and fleshy-fruited plants compared with Afrotropical systems, but a lack of intercontinental comparisons limits understanding of (a) whether plant–frugivore networks are structured in a similar manner, and (b) whether the same species traits define the roles of animals across continents., [Location] Afrotropics and Neotropics., [Time period] 1977-2015., [Taxa] Fleshy-fruited plants and frugivorous vertebrates., [Methods] We compiled a dataset comprising 17 Afrotropical and 48 Neotropical weighted seed-dispersal networks quantifying frugivory interactions between 1,091 fleshy-fruited plant and 665 animal species, comprising in total 8,251 interaction links between plants and animals. In addition, we compiled information on the body mass of animals and their degree of frugivory. We compared four standard network-level metrics related to interaction diversity and specialization, accounting for differences related to sampling effort and network location. Furthermore, we tested whether animal traits (body mass, degree of frugivory) differed between continents, whether these traits were related to the network roles of species and whether these relationships varied between continents., [Results] We found significant structural differences in networks between continents. Overall, Neotropical networks were less nested and more specialized than Afrotropical networks. At the species level, a higher body mass and degree of frugivory were associated with an increasing diversity of plant partners. Specialization of frugivores increased with the degree of frugivory, but only in the Neotropics., [Main conclusions] Our findings show that Afrotropical networks have a greater overlap in plant partners among vertebrate frugivores than the more diverse networks in the Neotropics that are characterized by a greater niche partitioning. Hence, the loss of frugivore species could have stronger impacts on ecosystem functioning in the more specialized Neotropical communities compared with the more generalized Afrotropical communities., We thank Beth A. Kaplin and Norbert J. Cordeiro for their guidance and support for P.J.D., who received a travel grant by The Center for Tropical Studies and Conservation (CTEC). L.C. and I.G. were supported by the Robert Bosch Foundation. D.M.D. (DE 2754/1‐1), F.S. (HE 3041/20‐1), M.Q., V.S., E.L.N. (Research Unit 823‐825), and K.B.G., M.S. and M.G.R.V. (FOR 1246) thank the German Research Foundation (DFG) for funding. F.A.F.J. acknowledges funding by a CAPES scholarship, N.F. and D.G.S. by the Robert Bosch Foundation, M.G., C.E., A.P. and M.A.P. by Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP 2010/52315‐7; 2015/15172‐7; 2016/18355‐8) and Conselho Nacional de Desenvolvimento Científico (CNPq), M.C.M. by Doctoral Fellowships from COLCIENCIAS and Rufford, M.S.S. by Consejo Nacional de Investigaciones Científicas y Técnicas (CONICET) and FONCyT (PICT2013‐2759 and PICT2016‐0608), P.G.B. by CONICET (PIP 2014‐592) and FONCyT (PICT 2013‐1280), R.A.R. by a Doctoral Fellowship from CONICET, R.H. and S.T. (IF/00441/2013) and M.C. (SFRH/BD/96050/2013) by Fundação para a Ciência e Tecnologia, Portugal, and A.T. (CGL2013‐44386‐P) and D.G. (CGL2015‐68963‐C2‐2‐R) by the Spanish government. T.

Published

2018

18. Secondary extinctions of biodiversity

Author

Judith L. Bronstein, Clare E. Aslan, John L. Maron, Craig Groves, Haldre S. Rogers, Jedediah F. Brodie, and Kent H. Redford

Subjects

Conservation planning, Mutualism (biology), Conservation of Natural Resources, Extinction, Obligate, Ecology, Biodiversity, social sciences, Biology, Extinction, Biological, Biological Evolution, Models, Biological, humanities, Predation, Risk Factors, Animals, Trophic cascade, Ecology, Evolution, Behavior and Systematics, Extinction debt

Abstract

Extinctions beget further extinctions when species lose obligate mutualists, predators, prey, or hosts. Here, we develop a conceptual model of species and community attributes affecting secondary extinction likelihood, incorporating mechanisms that buffer organisms against partner loss. Specialized interactors, including 'cryptic specialists' with diverse but nonredundant partner assemblages, incur elevated risk. Risk is also higher for species that cannot either evolve new traits following partner loss or obtain novel partners in communities reorganizing under changing environmental conditions. Partner loss occurs alongside other anthropogenic impacts; multiple stressors can circumvent ecological buffers, enhancing secondary extinction risk. Stressors can also offset each other, reducing secondary extinction risk, a hitherto unappreciated phenomenon. This synthesis suggests improved conservation planning tactics and critical directions for research on secondary extinctions.

Published

2014

19. Consequences of Seed Dispersal for Plant Recruitment in Tropical Forests: Interactions Within the Seedscape

Author

Noelle G. Beckman and Haldre S. Rogers

Subjects

Abiotic component, Seed dispersal syndrome, Frugivore, Biotic component, Defaunation, Ecology, Seed dispersal, Spatial ecology, Biological dispersal, Biology, Ecology, Evolution, Behavior and Systematics

Abstract

Seed dispersal sets the stage for the suite of biotic and abiotic interactions that determine the fate of individual seeds. In this review, we first focus on how dispersal influences the ‘seedscape’, or the combination of abiotic and biotic factors that affect the probability of recruitment once a seed has reached its final location. We review recent papers that examine the effect of different dispersal vectors on (1) the quality of the habitat in which a seed lands; (2) the distance seeds are dispersed from the parent tree; and (3) the density and composition of plants within the neighborhood of a seed following deposition. Next, we explore methods used to scale these processes up to the level of populations. We highlight demographic models that integrate across multiple life history stages and predict the impact of dispersal in variable environments on population growth. We also review studies that analyze existing spatial patterns of trees within large forest plots and use various strategies to infer the processes that led to those patterns. We continue to scale up from populations to communities, and discuss approaches that have been taken to understand how dispersal may affect diversity and abundance in the community. We then turn to human disturbances and discuss the implications of frugivore defaunation for plant communities. We finish by highlighting several areas of research that are particularly promising for future directions of study.

Published

2013

20. Accidental experiments: ecological and evolutionary insights and opportunities derived from global change

Author

Brooks E. Miner, Susan M. Waters, Kimberly S. Sheldon, Joshua J. Tewksbury, Sylvia Yang, Janneke HilleRisLambers, Haldre S. Rogers, Ailene K. Ettinger, Kevin R. Ford, David C. Haak, and Micah Horwith

Subjects

Ecology, Accidental, Situated, Evolutionary ecology, Global change, Duration (project management), Biology, Ecology, Evolution, Behavior and Systematics, Diffi cult

Abstract

Humans are the dominant ecological and evolutionary force on the planet today, transforming habitats, polluting environments, changing climates, introducing new species, and causing other species to decline in number or go extinct. Th ese worrying anthropogenic impacts, collectively termed global change, are often viewed as a confounding factor to minimize in basic studies and a problem to resolve or quantify in applied studies. However, these ‘ accidental experiments ’ also represent opportunities to gain fundamental insight into ecological and evolutionary processes, especially when they result in perturbations that are large or long in duration and diffi cult or unethical to impose experimentally. We demonstrate this by describing important fundamental insights already gained from studies which utilize global change factors as accidental experiments. In doing so, we highlight why accidental experiments are sometimes more likely to yield insights than traditional approaches. Next, we argue that emerging environmental problems can provide even more opportunities for scientifi c discovery in the future, and provide both examples and guidelines for moving forward. We recommend 1) a greater fl ow of information between basic and applied subfi elds of ecology and evolution to identify emerging opportunities; 2) considering the advantages of the ‘ accidental experiment ’ approach relative to more traditional approaches; and 3) planning for the challenges inherent to uncontrolled accidental experiments. We emphasize that we do not view the accidental experiments provided by global change as replacements for scientifi c studies quantifying the magnitude of anthropogenic impacts or outlining strategies for mitigating impacts. Instead, we believe that accidental experiments are uniquely situated to provide insights into evolutionary and ecological processes that ultimately allow us to better predict and manage change on our human-dominated planet.

Published

2013

21. Seed dispersal in changing landscapes

Author

Soumya Prasad, Luis Santamaría, Richard T. Corlett, Jedediah F. Brodie, Haldre S. Rogers, Ahimsa Campos-Arceiz, and Kim R. McConkey

Subjects

Functional ecology, Habitat fragmentation, Ecology, Minimum viable population, Seed dispersal, Biodiversity, food and beverages, Biological dispersal, Conservation status, Landscape ecology, Biology, Ecology, Evolution, Behavior and Systematics, Nature and Landscape Conservation

Abstract

A growing understanding of the ecology of seed dispersal has so far had little influence on conservation practice, while the needs of conservation practice have had little influence on seed dispersal research. Yet seed dispersal interacts decisively with the major drivers of biodiversity change in the 21st century: habitat fragmentation, overharvesting, biological invasions, and climate change. We synthesize current knowledge of the effects these drivers have on seed dispersal to identify research gaps and to show how this information can be used to improve conservation management. The drivers, either individually, or in combination, have changed the quantity, species composition, and spatial pattern of dispersed seeds in the majority of ecosystems worldwide, with inevitable consequences for species survival in a rapidly changing world. The natural history of seed dispersal is now well-understood in a range of landscapes worldwide. Only a few generalizations that have emerged are directly applicable to conservation management, however, because they are frequently confounded by site-specific and species-specific variation. Potentially synergistic interactions between disturbances are likely to exacerbate the negative impacts, but these are rarely investigated. We recommend that the conservation status of functionally unique dispersers be revised and that the conservation target for key seed dispersers should be a population size that maintains their ecological function, rather than merely the minimum viable population. Based on our analysis of conservation needs, seed dispersal research should be carried out at larger spatial scales in heterogenous landscapes, examining the simultaneous impacts of multiple drivers on community-wide seed dispersal networks. © 2011 Elsevier Ltd.

Published

2012

22. Front Cover

Author

Phillip J. Dugger, Pedro G. Blendinger, Katrin Böhning-Gaese, Lackson Chama, Marta Correia, D. Matthias Dehling, Carine Emer, Nina Farwig, Evan C. Fricke, Mauro Galetti, Daniel García, Ingo Grass, Ruben Heleno, Fábio A. F. Jacomassa, Suelen Moraes, Catherine Moran, Marcia C. Muñoz, Eike Lena Neuschulz, Larissa Nowak, Augusto Piratelli, Marco A. Pizo, Marta Quitián, Haldre S. Rogers, Román A. Ruggera, Francisco Saavedra, Mariano S. Sánchez, Rocío Sánchez, Vinicio Santillán, Dana G. Schabo, Fernanda Ribeiro da Silva, Sérgio Timóteo, Anna Traveset, Maximilian G. R. Vollstädt, and Matthias Schleuning

Subjects

Global and Planetary Change, Ecology, Ecology, Evolution, Behavior and Systematics

Published

2019

23. Multiple natural enemies cause distance-dependent mortality at the seed-to-seedling transition

Author

Joshua J. Tewksbury, Haldre S. Rogers, and Evan C. Fricke

Subjects

Herbivore, Ecology, Seed dispersal, Fungi, Biology, Plants, biology.organism_classification, Survival Analysis, Fungicide, Density dependence, Seedling, Germination, Seedlings, Exclosure, Seeds, Animals, Janzen–Connell hypothesis, Herbivory, Ecology, Evolution, Behavior and Systematics, Plant Physiological Phenomena

Abstract

Specialised natural enemies maintain forest diversity by reducing tree survival in a density- or distance-dependent manner. Fungal pathogens, insects and mammals are the enemy types most commonly hypothesised to cause this phenomenon. Still, their relative importance remains largely unknown, as robust manipulative experiments have generally targeted a single enemy type and life history stage. Here, we use fungicide, insecticide and physical exclosure treatments to isolate the impacts of each enemy type on two life history stages (germination and early seedling survival) in three tropical tree species. Distance dependence was evident for five of six species-stage combinations, with each enemy type causing distance dependence for at least one species stage and their importance varying widely between species and stages. Rather than implicating one enemy type as the primary agent of this phenomenon, our field experiments suggest that multiple agents acting at different life stages collectively contribute to this diversity-promoting mechanism.

Published

2013