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4. Food webs for three burn severities after wildfire in the Eldorado National Forest, California.

Author

McLaughlin, John P, Schroeder, John W, White, Angela M, Culhane, Kate, Mirts, Haley E, Tarbill, Gina L, Sire, Laura, Page, Matt, Baker, Elijah J, Moritz, Max, Brashares, Justin, Young, Hillary S, and Sollmann, Rahel

Subjects
Life Below Water
Abstract

Wildfire dynamics are changing around the world and understanding their effects on ecological communities and landscapes is urgent and important. We report detailed food webs for unburned, low-to-moderate and high severity burned habitats three years post-fire in the Eldorado National Forest, California. The cumulative cross-habitat food web contains 3,084 ontogenetic stages (nodes) or plant parts comprising 849 species (including 107 primary producers, 634 invertebrates, 94 vertebrates). There were 178,655 trophic interactions between these nodes. We provide information on taxonomy, body size, biomass density and trophic interactions under each of the three burn conditions. We detail 19 sampling methods deployed across 27 sites (nine in each burn condition) used to estimate the richness, body size, abundance and biomass density estimates in the node lists. We provide the R code and raw data to estimate summarized node densities and assign trophic links.

Published
2022

5. Small mammal responses to fire severity mediated by vegetation characteristics and species traits

Author

Culhane, Kathryn, Sollmann, Rahel, White, Angela M, Tarbill, Gina L, Cooper, Scott D, and Young, Hillary S

Subjects
Environmental Sciences, Ecological Applications, Ecology, Biological Sciences, Health Disparities, Minority Health, community structure, fire severity, functional trait, resource use, small mammal, Evolutionary Biology, Evolutionary biology, Ecological applications
Abstract

The frequency of large, high-severity "mega-fires" has increased in recent decades, with numerous consequences for forest ecosystems. In particular, small mammal communities are vulnerable to post-fire shifts in resource availability and play critical roles in forest ecosystems. Inconsistencies in previous observations of small mammal community responses to fire severity underscore the importance of examining mechanisms regulating the effects of fire severity on post-fire recovery of small mammal communities. We compared small mammal abundance, diversity, and community structure among habitats that burned at different severities, and used vegetation characteristics and small mammal functional traits to predict community responses to fire severity three years after one mega-fire in the Sierra Nevada, California. Using a model-based fourth-corner analysis, we examined how interactions between vegetation variables and small mammal traits associated with their resource use were associated with post-fire small mammal community structure among fire severity categories. Small mammal abundance was similar across fire severity categories, but diversity decreased and community structure shifted as fire severity increased. Differences in small mammal communities were large only between unburned and high-severity sites. Three highly correlated fire-dependent vegetation variables affected by fire and the volume of soft coarse woody debris were associated with small mammal community structures. Furthermore, we found that interactions between vegetation variables and three small mammal traits (feeding guild, primary foraging mode, and primary nesting habit) predicted community structure across fire severity categories. We concluded that resource use was important in regulating small mammal recovery after the fire because vegetation provided required resources to small mammals as determined by their functional traits. Given the mechanistic nature of our analyses, these results may be applicable to other fire-prone forest systems, although it will be important to conduct studies across large biogeographic regions and over long post-fire time periods to assess generality.

Published
2022

7. The influence of vector‐borne disease on human history: socio‐ecological mechanisms

Author

Athni, Tejas S, Shocket, Marta S, Couper, Lisa I, Nova, Nicole, Caldwell, Iain R, Caldwell, Jamie M, Childress, Jasmine N, Childs, Marissa L, De Leo, Giulio A, Kirk, Devin G, MacDonald, Andrew J, Olivarius, Kathryn, Pickel, David G, Roberts, Steven O, Winokur, Olivia C, Young, Hillary S, Cheng, Julian, Grant, Elizabeth A, Kurzner, Patrick M, Kyaw, Saw, Lin, Bradford J, Lopez, Ricardo C, Massihpour, Diba S, Olsen, Erica C, Roache, Maggie, Ruiz, Angie, Schultz, Emily A, Shafat, Muskan, Spencer, Rebecca L, Bharti, Nita, and Mordecai, Erin A

Subjects
Climate Change Impacts and Adaptation, Biological Sciences, Environmental Sciences, Infectious Diseases, Climate-Related Exposures and Conditions, Emerging Infectious Diseases, Rare Diseases, Vector-Borne Diseases, Infection, Good Health and Well Being, Disease Vectors, Humans, Malaria, Vector Borne Diseases, Arthropod, colonialism, disease ecology, environment, malaria, mosquito, plague, trypanosomiasis, vector-borne disease, yellow fever, Ecological Applications, Ecology, Evolutionary Biology, Ecological applications, Environmental management
Abstract

Vector-borne diseases (VBDs) are embedded within complex socio-ecological systems. While research has traditionally focused on the direct effects of VBDs on human morbidity and mortality, it is increasingly clear that their impacts are much more pervasive. VBDs are dynamically linked to feedbacks between environmental conditions, vector ecology, disease burden, and societal responses that drive transmission. As a result, VBDs have had profound influence on human history. Mechanisms include: (1) killing or debilitating large numbers of people, with demographic and population-level impacts; (2) differentially affecting populations based on prior history of disease exposure, immunity, and resistance; (3) being weaponised to promote or justify hierarchies of power, colonialism, racism, classism and sexism; (4) catalysing changes in ideas, institutions, infrastructure, technologies and social practices in efforts to control disease outbreaks; and (5) changing human relationships with the land and environment. We use historical and archaeological evidence interpreted through an ecological lens to illustrate how VBDs have shaped society and culture, focusing on case studies from four pertinent VBDs: plague, malaria, yellow fever and trypanosomiasis. By comparing across diseases, time periods and geographies, we highlight the enormous scope and variety of mechanisms by which VBDs have influenced human history.

Published
2021

9. Active breeding seabirds prospect alternative breeding colonies

Author

Kralj, Jelena, Ponchon, Aurore, Oro, Daniel, Amadesi, Barbara, Arizaga, Juan, Baccetti, Nicola, Boulinier, Thierry, Cecere, Jacopo G., Corcoran, Robin M., Corman, Anna-Marie, Enners, Leonie, Fleishman, Abram, Garthe, Stefan, Grémillet, David, Harding, Ann, Igual, José Manuel, Jurinović, Luka, Kubetzki, Ulrike, Lyons, Donald E., Orben, Rachael, Paredes, Rosana, Pirrello, Simone, Recorbet, Bernard, Shaffer, Scott, Schwemmer, Philipp, Serra, Lorenzo, Spelt, Anouk, Tavecchia, Giacomo, Tengeres, Jill, Tome, Davorin, Williamson, Cara, Windsor, Shane, Young, Hillary, Zenatello, Marco, and Fijn, Ruben

Published
2023
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11. A Renaissance of Atoll Ecology.

Author

Steibl, Sebastian, Bunbury, Nancy, Young, Hillary S., and Russell, James C.

Abstract

The approximately 320 atolls of the world, scattered across the tropical oceanic basins, constitute a unique type of ecosystem in that they are each an integrated unit consisting of island, coral reef, and lagoon components. Atolls have a complex geology, ecology, and biogeography, which can be fully appreciated only by transcending the classic boundary thinking of marine and terrestrial realms. The atolls we observe today were shaped by Quaternary sea-level fluctuations, which imposed strong environmental filters on their communities. As entirely biogenic, reef-borne structures, the islands of atolls depend upon marine productivity, which catalyzes island community assembly. Island species communities exist in complex dynamic equilibria with the surrounding oceanographic conditions. Energy fluxes and element cycles of the atoll system readily cross habitat boundaries and create a productive, diverse, and biomass-rich ecosystem on land and underwater. Past human disturbances and future global change put atolls at the forefront of conservation and ecological restoration. [ABSTRACT FROM AUTHOR]

Published
2024
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12. Invasive rat eradication strongly impacts plant recruitment on a tropical atoll.

Author

Wolf, Coral, Young, Hillary, Zilliacus, Kelly, Wegmann, Alexander, McKown, Matthew, Holmes, Nick, Tershy, Bernie, Dirzo, Rodolfo, Kropidlowski, Stefan, and Croll, Donald

Subjects
Animals, Biodiversity, Cocos, Conservation of Natural Resources, Ecology, Ecosystem, Hawaii, Introduced Species, Islands, Pacific Ocean, Rats, Seedlings, Trees, Tropical Climate
Abstract

Rat eradication has become a common conservation intervention in island ecosystems and its effectiveness in protecting native vertebrates is increasingly well documented. Yet, the impacts of rat eradication on plant communities remain poorly understood. Here we compare native and non-native tree and palm seedling abundance before and after eradication of invasive rats (Rattus rattus) from Palmyra Atoll, Line Islands, Central Pacific Ocean. Overall, seedling recruitment increased for five of the six native trees species examined. While pre-eradication monitoring found no seedlings of Pisonia grandis, a dominant tree species that is important throughout the Pacific region, post-eradication monitoring documented a notable recruitment event immediately following eradication, with up to 688 individual P. grandis seedlings per 100m2 recorded one month post-eradication. Two other locally rare native trees with no observed recruitment in pre-eradication surveys had recruitment post-rat eradication. However, we also found, by five years post-eradication, a 13-fold increase in recruitment of the naturalized and range-expanding coconut palm Cocos nucifera. Our results emphasize the strong effects that a rat eradication can have on tree recruitment with expected long-term effects on canopy composition. Rat eradication released non-native C. nucifera, likely with long-term implications for community composition, potentially necessitating future management interventions. Eradication, nevertheless, greatly benefitted recruitment of native tree species. If this pattern persists over time, we expect long-term benefits for flora and fauna dependent on these native species.

Published
2018

17. Human infectious disease burdens decrease with urbanization but not with biodiversity

Author

Wood, Chelsea L, McInturff, Alex, Young, Hillary S, Kim, DoHyung, and Lafferty, Kevin D

Subjects
Infectious Diseases, Prevention, Clinical Research, Infection, Good Health and Well Being, Biodiversity, Communicable Diseases, Disabled Persons, Environment, Humans, Prevalence, Public Health, Quality-Adjusted Life Years, Socioeconomic Factors, Urbanization, Infectious disease, disability-adjusted life year, dilution effect, global change, Biological Sciences, Medical and Health Sciences, Evolutionary Biology
Abstract

Infectious disease burdens vary from country to country and year to year due to ecological and economic drivers. Recently, Murray et al. (Murray CJ et al 2012 Lancet380, 2197-2223. (doi:10.1016/S0140-6736(12)61689-4)) estimated country-level morbidity and mortality associated with a variety of factors, including infectious diseases, for the years 1990 and 2010. Unlike other databases that report disease prevalence or count outbreaks per country, Murray et al. report health impacts in per-person disability-adjusted life years (DALYs), allowing comparison across diseases with lethal and sublethal health effects. We investigated the spatial and temporal relationships between DALYs lost to infectious disease and potential demographic, economic, environmental and biotic drivers, for the 60 intermediate-sized countries where data were available and comparable. Most drivers had unique associations with each disease. For example, temperature was positively associated with some diseases and negatively associated with others, perhaps due to differences in disease agent thermal optima, transmission modes and host species identities. Biodiverse countries tended to have high disease burdens, consistent with the expectation that high diversity of potential hosts should support high disease transmission. Contrary to the dilution effect hypothesis, increases in biodiversity over time were not correlated with improvements in human health, and increases in forestation over time were actually associated with increased disease burden. Urbanization and wealth were associated with lower burdens for many diseases, a pattern that could arise from increased access to sanitation and healthcare in cities and increased investment in healthcare. The importance of urbanization and wealth helps to explain why most infectious diseases have become less burdensome over the past three decades, and points to possible levers for further progress in improving global public health.This article is part of the themed issue 'Conservation, biodiversity and infectious disease: scientific evidence and policy implications'.

Published
2017

18. Interacting effects of land use and climate on rodent-borne pathogens in central Kenya

Author

Young, Hillary S, McCauley, Douglas J, Dirzo, Rodolfo, Nunn, Charles L, Campana, Michael G, Agwanda, Bernard, Otarola-Castillo, Erik R, Castillo, Eric R, Pringle, Robert M, Veblen, Kari E, Salkeld, Daniel J, Stewardson, Kristin, Fleischer, Robert, Lambin, Eric F, Palmer, Todd M, and Helgen, Kristofer M

Subjects
Biological Sciences, Prevention, Infectious Diseases, Emerging Infectious Diseases, 2.2 Factors relating to the physical environment, Infection, Life on Land, Good Health and Well Being, Agriculture, Animals, Climate Change, Conservation of Natural Resources, Disease Vectors, Kenya, Prevalence, Public Health, Rodentia, Zoonoses, disease, diversity, dilution effect, susceptible host regulation, landscape ecology, land-use change, Medical and Health Sciences, Evolutionary Biology, Biological sciences, Biomedical and clinical sciences
Abstract

Understanding the effects of anthropogenic disturbance on zoonotic disease risk is both a critical conservation objective and a public health priority. Here, we evaluate the effects of multiple forms of anthropogenic disturbance across a precipitation gradient on the abundance of pathogen-infected small mammal hosts in a multi-host, multi-pathogen system in central Kenya. Our results suggest that conversion to cropland and wildlife loss alone drive systematic increases in rodent-borne pathogen prevalence, but that pastoral conversion has no such systematic effects. The effects are most likely explained both by changes in total small mammal abundance, and by changes in relative abundance of a few high-competence species, although changes in vector assemblages may also be involved. Several pathogens responded to interactions between disturbance type and climatic conditions, suggesting the potential for synergistic effects of anthropogenic disturbance and climate change on the distribution of disease risk. Overall, these results indicate that conservation can be an effective tool for reducing abundance of rodent-borne pathogens in some contexts (e.g. wildlife loss alone); however, given the strong variation in effects across disturbance types, pathogen taxa and environmental conditions, the use of conservation as public health interventions will need to be carefully tailored to specific pathogens and human contexts.This article is part of the themed issue 'Conservation, biodiversity and infectious disease: scientific evidence and policy implications'.

Published
2017

20. Limited trophic partitioning among sympatric delphinids off a tropical oceanic atoll.

Author

Young, Hillary, Nigro, Katherine, McCauley, Douglas J, Ballance, Lisa T, Oleson, Erin M, and Baumann-Pickering, Simone

Subjects
Skin, Animals, Dolphins, Biopsy, Behavior, Animal, Feeding Behavior, Ecosystem, Food Chain, Nutritional Status, Remote Sensing Technology, General Science & Technology
Abstract

Understanding trophic relationships among marine predators in remote environments is challenging, but it is critical to understand community structure and dynamics. In this study, we used stable isotope analysis of skin biopsies to compare the isotopic, and thus, trophic niches of three sympatric delphinids in the waters surrounding Palmyra Atoll, in the Central Tropical Pacific: the melon-headed whale (Peponocephala electra), Gray's spinner dolphin (Stenella longirostris longirostris), and the common bottlenose dolphin (Tursiops truncatus). δ15N values suggested that T. truncatus occupied a significantly higher trophic position than the other two species. δ13C values did not significantly differ between the three delphinds, potentially indicating no spatial partitioning in depth or distance from shore in foraging among species. The dietary niche area-determined by isotopic variance among individuals-of T. truncatus was also over 30% smaller than those of the other species taken at the same place, indicating higher population specialization or lower interindividual variation. For P. electra only, there was some support for intraspecific variation in foraging ecology across years, highlighting the need for temporal information in studying dietary niche. Cumulatively, isotopic evidence revealed surprisingly little evidence for trophic niche partitioning in the delphinid community of Palmyra Atoll compared to other studies. However, resource partitioning may happen via other behavioral mechanisms, or prey abundance or availability may be adequate to allow these three species to coexist without any such partitioning. It is also possible that isotopic signatures are inadequate to detect trophic partitioning in this environment, possibly because isotopes of prey are highly variable or insufficiently resolved to allow for differentiation.

Published
2017

21. Genome sequence, population history, and pelage genetics of the endangered African wild dog (Lycaon pictus).

Author

Campana, Michael G, Parker, Lillian D, Hawkins, Melissa TR, Young, Hillary S, Helgen, Kristofer M, Szykman Gunther, Micaela, Woodroffe, Rosie, Maldonado, Jesús E, and Fleischer, Robert C

Subjects
Chromosomes, Animals, Animals, Wild, Canidae, Genetics, Population, Genomics, Polymorphism, Single Nucleotide, Genome, Geography, Genome, Mitochondrial, Selection, Genetic, Endangered Species, Lycaon pictus, Pelage, Population history, Selection, Wild, Genetics, Population, Polymorphism, Single Nucleotide, Mitochondrial, Genetic, Human Genome, 2.1 Biological and endogenous factors, Biological Sciences, Medical and Health Sciences, Information and Computing Sciences, Bioinformatics
Abstract

BackgroundThe African wild dog (Lycaon pictus) is an endangered African canid threatened by severe habitat fragmentation, human-wildlife conflict, and infectious disease. A highly specialized carnivore, it is distinguished by its social structure, dental morphology, absence of dewclaws, and colorful pelage.ResultsWe sequenced the genomes of two individuals from populations representing two distinct ecological histories (Laikipia County, Kenya and KwaZulu-Natal Province, South Africa). We reconstructed population demographic histories for the two individuals and scanned the genomes for evidence of selection.ConclusionsWe show that the African wild dog has undergone at least two effective population size reductions in the last 1,000,000 years. We found evidence of Lycaon individual-specific regions of low diversity, suggestive of inbreeding or population-specific selection. Further research is needed to clarify whether these population reductions and low diversity regions are characteristic of the species as a whole. We documented positive selection on the Lycaon mitochondrial genome. Finally, we identified several candidate genes (ASIP, MITF, MLPH, PMEL) that may play a role in the characteristic Lycaon pelage.

Published
2016

22. Use of high-resolution acoustic cameras to study reef shark behavioral ecology

Author

McCauley, Douglas J, DeSalles, Paul A, Young, Hillary S, Gardner, Jonathan PA, and Micheli, Fiorenza

Subjects
Life Below Water, Behavior, Movement ecology, Mobile species, Sharks, Acoustic camera, Sonar, Environmental Sciences, Biological Sciences, Agricultural and Veterinary Sciences, Marine Biology & Hydrobiology
Published
2016

23. Large wildlife removal drives immune defence increases in rodents

Author

Young, Hillary S, Dirzo, Rodolfo, Helgen, Kristofer M, McCauley, Douglas J, Nunn, Charles L, Snyder, Paul, Veblen, Kari E, Zhao, Serena, and Ezenwa, Vanessa O

Subjects
Ecological Applications, Biological Sciences, Ecology, Environmental Management, Environmental Sciences, Life on Land, Good Health and Well Being, defaunation, ecoimmunology, Kenya Long-term Exclosure Experiment, rodent, wildlife decline, Biological sciences, Environmental sciences
Abstract

Anthropogenic disturbances involving land use change, climate disruption, pollution and invasive species have been shown to impact immune function of wild animals. These immune changes have direct impacts on the fitness of impacted animals and, also, potentially indirect effects on other species and on ecological processes, notably involving the spread of infectious disease. Here, we investigate whether the selective loss of large wildlife can also drive changes in immune function of other consumer species. Using a long-standing large-scale exclosure experiment in East Africa, we investigated the effects of selective removal of large wildlife on multiple measures of immune function in the dominant small rodent in the system, the East African pouched mouse, Saccostomus mearnsi. We find support for a general increase in immune function in landscapes where large wildlife has been removed, but with some variation across immune parameters. These changes may be mediated in part by increased pathogen pressure in plots where large wildlife has been removed due to major increases in rodent density in such plots, but other factors such as changes in food resources are also likely involved. Overall, our research reveals that the elimination of large-bodied wildlife - now recognized as another major form of global anthropogenic change - may have cascading effects on immune health, with the potential for these effects to also impact disease dynamics in ecological communities. Lay Summary Functional Ecology

Published
2016

26. Drivers of Intensity and Prevalence of Flea Parasitism on Small Mammals in East African Savanna Ecosystems.

Author

Young, Hillary S, Dirzo, Rodolfo, McCauley, Douglas J, Agwanda, Bernard, Cattaneo, Lia, Dittmar, Katharina, Eckerlin, Ralph P, Fleischer, Robert C, Helgen, Lauren E, Hintz, Ashley, Montinieri, John, Zhao, Serena, and Helgen, Kristofer M

Subjects
Animals, Rodentia, Plants, Rodent Diseases, Soil, Body Size, Prevalence, Ecosystem, Rain, Seasons, Kenya, Female, Male, Host-Pathogen Interactions, Siphonaptera, Flea Infestations, Grassland, Mycology & Parasitology, Biological Sciences, Agricultural and Veterinary Sciences
Abstract

The relative importance of environmental factors and host factors in explaining variation in prevalence and intensity of flea parasitism in small mammal communities is poorly established. We examined these relationships in an East African savanna landscape, considering multiple host levels: across individuals within a local population, across populations within species, and across species within a landscape. We sampled fleas from 2,672 small mammals of 27 species. This included a total of 8,283 fleas, with 5 genera and 12 species identified. Across individual hosts within a site, both rodent body mass and season affected total intensity of flea infestation, although the explanatory power of these factors was generally modest (

Published
2015

27. Effects of Land Use on Plague (Yersinia pestis) Activity in Rodents in Tanzania

Author

McCauley, Douglas J, Salkeld, Daniel J, Young, Hillary S, Makundi, Rhodes, Dirzo, Rodolfo, Eckerlin, Ralph P, Lambin, Eric F, Gaffikin, Lynne, Barry, Michele, and Helgen, Kristofer M

Subjects
Biodefense, Prevention, Emerging Infectious Diseases, Vector-Borne Diseases, Climate-Related Exposures and Conditions, Vaccine Related, Aetiology, 2.2 Factors relating to the physical environment, Life on Land, Agriculture, Animals, Conservation of Natural Resources, DNA Barcoding, Taxonomic, Disease Reservoirs, Ecosystem, Female, Geography, Humans, Plague, Prevalence, Rodent Diseases, Rodentia, Seroepidemiologic Studies, Siphonaptera, Tanzania, Yersinia pestis, Zoonoses, Medical and Health Sciences, Tropical Medicine
Abstract

Understanding the effects of land-use change on zoonotic disease risk is a pressing global health concern. Here, we compare prevalence of Yersinia pestis, the etiologic agent of plague, in rodents across two land-use types-agricultural and conserved-in northern Tanzania. Estimated abundance of seropositive rodents nearly doubled in agricultural sites compared with conserved sites. This relationship between land-use type and abundance of seropositive rodents is likely mediated by changes in rodent and flea community composition, particularly via an increase in the abundance of the commensal species, Mastomys natalensis, in agricultural habitats. There was mixed support for rodent species diversity negatively impacting Y. pestis seroprevalence. Together, these results suggest that land-use change could affect the risk of local transmission of plague, and raise critical questions about transmission dynamics at the interface of conserved and agricultural habitats. These findings emphasize the importance of understanding disease ecology in the context of rapidly proceeding landscape change.

Published
2015

28. Context‐dependent effects of large‐wildlife declines on small‐mammal communities in central Kenya

Author

Young, Hillary S, McCauley, Douglas J, Dirzo, Rodolfo, Goheen, Jacob R, Agwanda, Bernard, Brook, Cara, Otárola-Castillo, Erik, Ferguson, Adam W, Kinyua, Stephen N, McDonough, Molly M, Palmer, Todd M, Pringle, Robert M, Young, Truman P, and Helgen, Kristofer M

Subjects
Ecological Applications, Biological Sciences, Ecology, Environmental Management, Environmental Sciences, Life on Land, Animals, Animals, Wild, Biodiversity, Body Size, Conservation of Natural Resources, Kenya, Population Dynamics, community structure, defaunation, diversity, East Africa, environmental gradients, exclosure experiment, land-use change, species richness, Agricultural and Veterinary Sciences, Agricultural, veterinary and food sciences, Biological sciences, Environmental sciences
Abstract

Many species of large wildlife have declined drastically worldwide. These reductions often lead to profound shifts in the ecology of entire communities and ecosystems. However, the effects of these large-wildlife declines on other taxa likely hinge upon both underlying abiotic properties of these systems and on the types of secondary anthropogenic changes associated with wildlife loss, making impacts difficult to predict. To better understand how these important contextual factors determine the consequences of large-wildlife declines on other animals in a community, we examined the effects of three common forms of large-wildlife loss (removal without replacement [using fences], removal followed by replacement with domestic stock, and removal accompanied by crop agricultural use) on small-mammal abundance, diversity, and community composition, in landscapes that varied in several abiotic attributes (rainfall, soil fertility, land-use intensity) in central Kenya. We found that small-mammal communities were indeed heavily impacted by all forms of large-wildlife decline, showing, on average: (1) higher densities, (2) lower species richness per site, and (3) different species assemblages in sites from which large wildlife were removed. However, the nature and magnitude of these effects were strongly context dependent. Rainfall, type of land-use change, and the interaction of these two factors were key predictors of both the magnitude and type of responses of small mammals. The strongest effects, particularly abundance responses, tended to be observed in low-rainfall areas. Whereas isolated wildlife removal primarily led to increased small-mammal abundance, wildlife removal associated with secondary uses (agriculture, domestic stock) had much more variable effects on abundance and stronger impacts on diversity and composition. Collectively, these results (1) highlight the importance of context in determining the impacts of large-wildlife decline on small-mammal communities, (2) emphasize the challenges in extrapolating results from controlled experimental studies to predict the effects of wildlife declines that are accompanied by secondary land-uses, and (3) suggest that, because of the context-dependent nature of the responses to large-wildlife decline, large-wildlife status alone cannot be reliably used to predict small-mammal community changes.

Published
2015

30. Positive and Negative Effects of a Threatened Parrotfish on Reef Ecosystems

Author

MCCAULEY, DOUGLAS J, YOUNG, HILLARY S, GUEVARA, ROGER, WILLIAMS, GARETH J, POWER, ELEANOR A, DUNBAR, ROBERT B, BIRD, DOUGLAS W, DURHAM, WILLIAM H, and MICHELI, FIORENZA

Subjects
Climate Change Impacts and Adaptation, Ecological Applications, Biological Sciences, Ecology, Environmental Management, Environmental Sciences, Life on Land, Animals, Conservation of Natural Resources, Coral Reefs, Endangered Species, Feeding Behavior, Food Chain, Models, Biological, Perciformes, Polynesia, benthic, Bolbometopon, coral, function, diversity, management, simulation, threatened species, Béntico, diversidad, especie amenazada, función, manejo, simulación, Agricultural and Veterinary Sciences, Zoology, Environmental management
Abstract

Species that are strong interactors play disproportionately important roles in the dynamics of natural ecosystems. It has been proposed that their presence is necessary for positively shaping the structure and functioning of ecosystems. We evaluated this hypothesis using the case of the world's largest parrotfish (Bolbometopon muricatum), a globally imperiled species. We used direct observation, animal tracking, and computer simulations to examine the diverse routes through which B. muricatum affects the diversity, dispersal, relative abundance, and survival of the corals that comprise the foundation of reef ecosystems. Our results suggest that this species can influence reef building corals in both positive and negative ways. Field observation and simulation outputs indicated that B. muricatum reduced the abundance of macroalgae that can outcompete corals, but they also feed directly on corals, decreasing coral abundance, diversity, and colony size. B. muricatum appeared to facilitate coral advancement by mechanically dispersing coral fragments and opening up bare space for coral settlement, but they also damaged adult corals and remobilized a large volume of potentially stressful carbonate sediment. The impacts this species has on reefs appears to be regulated in part by its abundance-the effects of B. muricatum were more intense in simulation scenarios populated with high densities of these fish. Observations conducted in regions with high and low predator (e.g., sharks) abundance generated results that are consistent with the hypothesis that these predators of B. muricatum may play a role in governing their abundance; thus, predation may modulate the intensity of the effects they have on reef dynamics. Overall our results illustrate that functionally unique and threatened species may not have universally positive impacts on ecosystems and that it may be necessary for environmental managers to consider the diverse effects of such species and the forces that mediate the strength of their influence.

Published
2014

31. Reliance of mobile species on sensitive habitats: a case study of manta rays (Manta alfredi) and lagoons

Author

McCauley, Douglas J, DeSalles, Paul A, Young, Hillary S, Papastamatiou, Yannis P, Caselle, Jennifer E, Deakos, Mark H, Gardner, Jonathan PA, Garton, David W, Collen, John D, and Micheli, Fiorenza

Subjects
Environmental Sciences, Biological Sciences, Agricultural and Veterinary Sciences, Marine Biology & Hydrobiology
Abstract

Quantifying the ecological importance of individual habitats to highly mobile animals is challenging because patterns of habitat reliance for these taxa are complex and difficult to observe. We investigated the importance of lagoons to the manta ray, Manta alfredi, a wide-ranging and vulnerable species in a less-disturbed atoll ecosystem. Lagoons are highly sensitive to anthropogenic disturbance and are known to be ecologically important to a wide variety of mobile species. We used a novel combination of research tools to examine the reliance of M. alfredi on lagoon habitats. Stable isotope analysis was used to assay the recent energetic importance of lagoons to M. alfredi; high-resolution tracking data provided information about how M. alfredi utilised lagoonal habitats over long and short time periods; acoustic cameras logged patterns of animal entrances and departures from lagoons; and photo identification/laser photogrammetry provided some insight into why they may be using this habitat. M. alfredi showed strong evidence of energetic dependence on lagoon resources during the course of the study and spent long periods of residence within lagoons or frequently transited into them from elsewhere. While within lagoons, they demonstrated affinities for particular structural features within this habitat and showed evidence of temporal patterning in habitat utilization. This work sheds light on how and why M. alfredi uses lagoons and raises questions about how this use may be altered in disturbed settings. More generally, these observations contribute to our knowledge of how to assess the ecological importance of particular habitats situated within the broader home range of mobile consumers. © 2014 Springer-Verlag Berlin Heidelberg.

Published
2014

32. Declines in large wildlife increase landscape-level prevalence of rodent-borne disease in Africa

Author

Young, Hillary S, Dirzo, Rodolfo, Helgen, Kristofer M, McCauley, Douglas J, Billeter, Sarah A, Kosoy, Michael Y, Osikowicz, Lynn M, Salkeld, Daniel J, Young, Truman P, and Dittmar, Katharina

Subjects
Emerging Infectious Diseases, Infectious Diseases, Vector-Borne Diseases, 2.2 Factors relating to the physical environment, Aetiology, Infection, Life on Land, Good Health and Well Being, Africa, Eastern, Animals, Animals, Wild, Bartonella Infections, Biodiversity, Ecosystem, Flea Infestations, Humans, Kenya, Lice Infestations, Prevalence, Risk Factors, Rodent Diseases, Rodentia, Xenopsylla, Zoonoses, dilution effect
Abstract

Populations of large wildlife are declining on local and global scales. The impacts of this pulse of size-selective defaunation include cascading changes to smaller animals, particularly rodents, and alteration of many ecosystem processes and services, potentially involving changes to prevalence and transmission of zoonotic disease. Understanding linkages between biodiversity loss and zoonotic disease is important for both public health and nature conservation programs, and has been a source of much recent scientific debate. In the case of rodent-borne zoonoses, there is strong conceptual support, but limited empirical evidence, for the hypothesis that defaunation, the loss of large wildlife, increases zoonotic disease risk by directly or indirectly releasing controls on rodent density. We tested this hypothesis by experimentally excluding large wildlife from a savanna ecosystem in East Africa, and examining changes in prevalence and abundance of Bartonella spp. infection in rodents and their flea vectors. We found no effect of wildlife removal on per capita prevalence of Bartonella infection in either rodents or fleas. However, because rodent and, consequently, flea abundance doubled following experimental defaunation, the density of infected hosts and infected fleas was roughly twofold higher in sites where large wildlife was absent. Thus, defaunation represents an elevated risk in Bartonella transmission to humans (bartonellosis). Our results (i) provide experimental evidence of large wildlife defaunation increasing landscape-level disease prevalence, (ii) highlight the importance of susceptible host regulation pathways and host/vector density responses in biodiversity-disease relationships, and (iii) suggest that rodent-borne disease responses to large wildlife loss may represent an important context where this relationship is largely negative.

Published
2014

33. Differential plant damage due to litterfall in palm-dominated forest stands in a Central Pacific atoll

Author

Young, Hillary S, McCauley, Douglas J, Pollock, Amanda, and Dirzo, Rodolfo

Subjects
Cocos nucifera, diversity, island, litterfall, palm, regeneration, Ecology, Anthropology
Abstract

High densities of palms are common in many tropical forests. In some cases, the dominance of palms has been associated with a depauperate understorey and high rates of native seedling mortality. A variety of different potential mechanisms has been suggested to explain the sustained palm dominance in the understorey and canopy of these forests. Working in a Cocos nucifera-dominated wet tropical forest at Palmyra Atoll in the central Pacific, we examine how litterfall from this pantropical, and economically important palm, impacts seedling survival. We compare rates of litterfall, and rates of litterfall-associated damage, between forest stands dominated by C. nucifera (coconut palm) and forest stands with low abundance of C. nucifera. To assess litterfall damage we survey damage to both artificial seedlings (n = 711), outplanted real seedlings of two species (with and without protection via caging; n = 204), and standing rates of litterfall damage. We find that rates of large-litterfall damage were an average of five times higher in sites with high densities of C. nucifera. Associated with these increases we observe that levels of physical damage to artificial model seedlings caused by litterfall over a 4-mo period increased from 4.9% in sites with low abundance of C. nucifera to 16.1% in sites with high abundance of C. nucifera. Extrapolated to annual rates, litterfall damage of this magnitude exceeds the average levels observed in other published studies. Living native seedlings also showed more than 300% higher levels of mortality in forest stands with high densities of C. nucifera, a difference that was greatly reduced when protected by caging from litterfall. In contrast, uncaged C. nucifera seedlings actually had slightly higher survivorship in habitats dominated by conspecifics. We suggest that litterfall damage may be an important mechanism by which this tropical palm reaches and maintains near monodominance in many coastal and insular habitats. © 2014 Cambridge University Press.

Published
2014

34. Pushing back against paper-park pushers – Reply to Craigie et al.

Author

McCauley, Douglas J, Young, Hillary S, Power, Eleanor A, Bird, Douglas W, Durham, William H, McInturff, Alex, Dunbar, Robert B, and Micheli, Fiorenza

Subjects
Environmental Sciences, Biological Sciences, Agricultural and Veterinary Sciences, Ecology
Published
2014

36. Rethinking atoll futures: local resilience to global challenges

Author

Steibl, Sebastian, primary, Kench, Paul S., additional, Young, Hillary S., additional, Wegmann, Alex S., additional, Holmes, Nick D., additional, Bunbury, Nancy, additional, Teavai-Murphy, Teurumereariki Hinano, additional, Davies, Neil, additional, Murphy, Frank, additional, and Russell, James C., additional

Published
2023
Full Text
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42. Conservation at the edges of the world

Author

McCauley, Douglas J, Power, Eleanor A, Bird, Douglas W, McInturff, Alex, Dunbar, Robert B, Durham, William H, Micheli, Fiorenza, and Young, Hillary S

Subjects
Life on Land, Remote, Ecosystem service, Tourism, Community, Biodiversity, Conservation, GIS, Protected area, Environmental Sciences, Biological Sciences, Agricultural and Veterinary Sciences, Ecology
Abstract

Remote areas harbor some of the world's most undisturbed ecosystems. Major conservation gains can be made by effectively protecting nature in these remote zones. Conducting conservation work in remote settings presents both unique challenges and promising opportunities. We discuss how five commonly used approaches for conservation (buy and protect conservation; conservation motivated by the intrinsic values of nature; ecosystem service based conservation; ecotourism driven conservation; and conservation enabled by community planning) can be optimally applied to protect ecosystems in these special settings. In this discussion we draw examples from two model remote sites: Palmyra and Tabuaeran Atolls. Spatial analyses conducted using population density as a proxy for remoteness indicate that many existing recognized protected areas already include remote regions, but that the vast majority of the overall remote zones on the planet are not yet formally protected. Initiating discussions that directly consider both the roadblocks and opportunities for conservation in remote areas will help increase our odds of successfully protecting biodiversity in these unique and strategically important contexts. © 2013 Elsevier Ltd.

Published
2013

44. Night shift: expansion of temporal niche use following reductions in predator density.

Author

McCauley, Douglas J, Hoffmann, Eva, Young, Hillary S, and Micheli, Fiorenza

Subjects
Animals, Fishes, Predatory Behavior, Darkness, General Science & Technology
Abstract

Predation shapes many fundamental aspects of ecology. Uncertainty remains, however, about whether predators can influence patterns of temporal niche construction at ecologically relevant timescales. Partitioning of time is an important mechanism by which prey avoid interactions with predators. However, the traits that control a prey organism's capacity to operate during a particular portion of the diel cycle are diverse and complex. Thus, diel prey niches are often assumed to be relatively unlikely to respond to changes in predation risk at short timescales. Here we present evidence to the contrary. We report results that suggest that the anthropogenic depletion of daytime active predators (species that are either diurnal or cathemeral) in a coral reef ecosystem is associated with rapid temporal niche expansions in a multi-species assemblage of nocturnal prey fishes. Diurnal comparisons of nocturnal prey fish abundance in predator rich and predator depleted reefs at two atolls revealed that nocturnal fish were approximately six (biomass) and eight (density) times more common during the day on predator depleted reefs. Amongst these, the prey species that likely were the most specialized for nocturnal living, and thus the most vulnerable to predation (i.e. those with greatest eye size to body length ratio), showed the strongest diurnal increases at sites where daytime active predators were rare. While we were unable to determine whether these observed increases in diurnal abundance by nocturnal prey were the result of a numerical or behavioral response, either effect could be ecologically significant. These results raise the possibility that predation may play an important role in regulating the partitioning of time by prey and that anthropogenic depletions of predators may be capable of causing rapid changes to key properties of temporal community architecture.

Published
2012

45. Acute effects of removing large fish from a near-pristine coral reef

Author

McCauley, Douglas J., Micheli, Fiorenza, Young, Hillary S., Tittensor, Derek P., Brumbaugh, Daniel R., Madin, Elizabeth M., Holmes, Katherine E., Smith, Jennifer E., Lotze, Heike K., DeSalles, Paul A., Arnold, Suzanne N., and Worm, Boris

Subjects
Life Sciences, Zoology, Oceanography, Biomedicine general, Ecology, Microbiology
Abstract

Large animals are severely depleted in many ecosystems, yet we are only beginning to understand the ecological implications of their loss. To empirically measure the short-term effects of removing large animals from an ocean ecosystem, we used exclosures to remove large fish from a near-pristine coral reef at Palmyra Atoll, Central Pacific Ocean. We identified a range of effects that followed from the removal of these large fish. These effects were revealed within weeks of their removal. Removing large fish (1) altered the behavior of prey fish; (2) reduced rates of herbivory on certain species of reef algae; (3) had both direct positive (reduced mortality of coral recruits) and indirect negative (through reduced grazing pressure on competitive algae) impacts on recruiting corals; and (4) tended to decrease abundances of small mobile benthic invertebrates. Results of this kind help advance our understanding of the ecological importance of large animals in ecosystems.

Published
2010

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