Antipredator calling by the eastern chipmunk, Tamius striatus

Burke da Silva, Karen

January 1993

No description available.

Eastern chipmunk -- Behavior.

Predation (Biology)

Eastern chipmunk -- Vocalization.

An Asynchronous Mesozoic Marine Revolution: Drilling Versus Durophagy in Post-Paleozoic Echinoids

Lapic, Whitney Alexandra

23 April 2021

No description available.

Paleontology

Geology

Echinoids

Mesozoic Marine Revolution

antipredatory morphology

durophagy

predation

Impacts of a Seed Predator on Sundial Lupine

Shimola, Jennifer

27 August 2013

No description available.

Biology

Ecology

seed predation

plant insect interactions

seed color

alydids

Cascading Effects Of Predator Removal On The Ecology Of Sea Turtle Nesting Beaches

Barton, Brandon

01 January 2005

Traditional views of food web dynamics have characterized species interactions as linear and direct. However, modern food web theory suggests that interactions can also be nonlinear and indirect, so that disturbance at one trophic level is transmitted throughout the community. Many previous studies have demonstrated that the removal of top predators from terrestrial ecosystems can have broad-scale impacts on community ecology. I examined the direct and indirect effects of raccoon removal from sea turtle nesting beaches in east-central Florida during the summers of 2003 and 2004. Raccoon and ghost crab predation are among the highest causes of egg mortality for sea turtles in Florida and raccoons are intraguild predators of ghost crabs. Because of the damage done to sea turtle nests, raccoons have been removed from some beaches during the sea turtle nesting season. I compared the diet and demography of a raccoon population that had experienced two decades of raccoon removal to a population that had previously been unmanipulated. I found that long-term raccoon removal had created a significantly male-biased sex ratio in that population. I also examined the indirect effects of raccoon removal by comparing the abundances of raccoons and ghost crabs at four study sites using passive tracking plots. My data suggest intraguild predation by raccoons limits ghost crab abundance and that reduced raccoon abundance allowed ghost crab abundance to increase, resulting in a net increase in sea turtle egg predation. These results support my hypothesis that intraguild predation of ghost crabs by raccoons is an influential interaction on sea turtle nesting beach community dynamics.

raccoon

intraguild predation

mesopredator release

ghost crab

sea turtle

Biology

Quantifying the Ecological Drivers and Impacts of Parrotfish Predation on Caribbean Corals Communities

Rempel, Hannah Sima

01 August 2020

Parrotfishes (Scarinae) are dominant Caribbean herbivores that play an important role in reducing coral-algae competition by grazing algae; yet some species are also occasional coral predators (corallivores) and thereby can have direct negative impacts on coral growth and survivorship. There is concern that parrotfish corallivory may contribute to substantial long-term declines in targeted coral species, particularly in areas with a high biomass of parrotfishes and low cover of corals. However, the capacity of target coral species to heal from parrotfish predation and the ecological drivers of corallivory are poorly understood. In Chapter 1, we examined the patterns of coral healing from parrotfish predation scars on Orbicella annularis – an ecologically important framework building coral that is one of the most intensely grazed Caribbean coral species and an endangered species. While some researchers have suggested that parrotfishes may have significant long-term impacts on heavily targeted species such as O. annularis, the patterns of coral recovery from parrotfish predation scars remain poorly understood. To address this knowledge gap, we tracked the fate of parrotfish bite scars on O. annularis colonies across two Caribbean islands for up to two months. We evaluated differences in coral healing between islands in response to a number of variables including the initial scar surface area, scar abundance per coral colony, colony surface area, and water depth. We used these data to develop a predictive model of O. annularis tissue loss from recent parrotfish bite scars. We then applied this model to surveys of the distribution of bite scars at a point in time to estimate long-term tissue loss of O. annularis colonies from a standing stock of bite scars. Our findings suggest that the initial scar surface area is one of the most important predictors of coral tissue loss. The data also indicate that there are thresholds in patterns of coral tissue regeneration: we observed that small scars (≤1.25 cm2) often fully heal, while larger scars (≥8.2 cm2) had minimal tissue regeneration. The vast majority of observed scars (~87%) were 1.25 cm2 or less and our model predicted that O. annularis colonies would regenerate nearly all the corresponding scar area. In contrast, while scars greater than or equal to than 8.2 cm2 were infrequent (~6% of all observed scars), our model predicted that these larger scars would account for over 96% of the total tissue loss for grazed colonies. Overall, our results suggest that the immediate negative impacts of parrotfish predation on coral tissue loss appear to be driven primarily by a few exceptionally large bite scars. While further work is needed to understand the long-term impacts of corallivory and quantify the net impacts of parrotfish herbivory and corallivory on Caribbean coral reefs, this study is an important step in addressing factors that impact the recovery of a heavily targeted and ecologically important Caribbean coral from parrotfish predation. In Chapter 2, we examined the ecological drivers of corallivory across all coral taxa and across three regions of the Greater Caribbean – the Florida Keys, St. Croix, and Bonaire. To do so, we observed how parrotfish grazing intensity varied using both size and abundance-based metrics across multiple spatial scales. At the reef community and regional scale, we found no effect of the biomass of corallivorous parrotfishes or the percent cover of target coral species on the intensity of parrotfish corallivory. However, at the scale of individual coral colonies, we found that coral taxa and colony size were important predictors of corallivory intensity, and that predation intensity increased as colony size increased. Our findings suggest that previous assertions that conservation of corallivorous parrotfishes may have net negative impacts on coral communities, particularly as live coral cover declines, are not supported at the reef-scale. Instead, our research suggests that colony-level traits such as coral taxa and colony size may be stronger drivers of predation intensity. Additionally, our research suggests that parrotfishes do not heavily graze upon the majority of coral species, but have a higher level of grazing intensity on three taxa, Orbicella annularis, Porites astreoides and other Porites spp. across multiple regions of the Caribbean. Therefore, the direct consequences of parrotfish corallivory for coral tissue loss are likely low for the majority of coral species, but further research is needed to better understand the ultimate causes of selective predation and the long-term consequences of corallivory for heavily targeted coral taxa.

Parrotfish

Predation

Corallivory

Coral reefs

Coral healing

Caribbean

Marine Biology

Vulnerability of Logfin Inshore Squid (Loligo Pealeii) to Predation: The Influence of Relative Prey Size and Behavior

Staudinger, Michelle Dana

01 February 2010

Cephalopods provide forage to a wide range of predators in marine food-webs. Despite their ecological importance, a basic understanding of the mechanisms controlling predation risk and demand is lacking. This is true of one of the most common species of squid found in the northwest Atlantic, the longfin inshore squid (Loligo pealeii). In this dissertation, I address this shortcoming by investigating the role that size and behavior play in influencing squid’s vulnerability to predation. I used long-term food habits, population survey, and commercial landings data, to quantify size-based patterns of predation respective to 25 species of predators. Additionally, I estimated the amount of overlap between predatory consumption and the fishery catch for squid by size. I found that finfish and elasmobranchs generally consumed juvenile and sub-adult squid, while marine mammals primarily targeted adults. Consequently, marine mammals had the highest overlap with the fishing industry for squid size resources. Although large squid were not common in predator diets, predators did not appear to be gape-limited when feeding on squid. This suggested that other factors, including behavior, were important in shaping size-based patterns of predation. I used a laboratory-based approach to quantify attack and capture behaviors towards squid by two predators representing contrasting foraging tactics. Bluefish (Pomatomus saltatrix) and summer flounder (Paralichthys dentatus) were chosen as cruising and ambush predators, respectively. Patterns in attack rates suggested that sizeselection on squid was constrained by passive processes rather than active choice in both predators. Size-dependent profitability functions were calculated by combining capture success rates, handling times, and relative prey mass, and determined that bluefish was the more efficient predator of squid. Lastly, I evaluated the occurrence and effectiveness of anti-predator responses used by squid in the presence of bluefish and flounder. Squid behavior depended on the type of predator present, and the survival value of primary and secondary defense behaviors differed during interactions with each predator. The results of this project are intended to improve the quality of management of squid and their predators by providing a better understanding of predator-prey interactions in the northwest Atlantic.

Behavior

Cephalopod

Fisheries

Marine

Predation

Size-selection

Terrestrial and Aquatic Ecology

Freshwater Salinization Alters the Biology and Ecology of Zooplankton.

Huber, Eric D.

January 2022

No description available.

Aquatic Sciences

Biology

Ecology

Salinization

zooplankton

life history

predation

behavior

Spatial Response of Bobcats and Coyotes to Resources and Human Modification in Illinois

Gorman, Nicole

01 December 2022

Mesocarnivores, including bobcats (Lynx rufus) and coyotes (Canis latrans), fill a unique ecological role throughout much of North America, where they were once influenced by larger predators, but are now the top predators where large carnivores have been extirpated. Their adaptability, generalist traits, and ability to coexist with humans to a greater extent than many species makes them an important subject for current predator research. In addition, their recent population recovery in the case of bobcats and historical range expansion in the case of coyotes make their study timely given a potential increase in their influence on their prey and environments. I investigated how bobcats and coyotes in southern and central Illinois respond in their spatial behavior to factors in their environment like human modification and resources, including a local pulsed resource, white-tailed deer (Odocoileus virginianus) fawns. These spatial behaviors include home-ranging behaviors, habitat selection, and movement, which can be extremely informative in estimating how mesocarnivores respond to landscape heterogeneity. I found that individual variation, which is understudied in much of current spatial research, played a powerful role in all of these behaviors. Bobcats and coyotes used different strategies to respond to human modification in their home ranges, with bobcats broadly expanding their home range with increases in human modification, and clearly selecting for or avoiding these features on the landscape. Meanwhile, coyotes did not expand their home ranges with human modification, but instead displayed temporal and spatial complexity in their functional responses to human modification. These differences in response revealed a gradient in spatial behaviors animals can use to exist in anthropogenic environments, influenced by a species’ behavioral plasticity. I also found that while bobcat and coyote targeting of fawns during fawns’ most vulnerable period was weakly supported at the population-level, there was a substantial amount of individual variation in fawn exploitation. These results provided evidence that there were some specialist individuals that may contribute much more to fawn predation than others, which was somewhat influenced by habitat type. Overall, I found important interspecies and interindividual variation in mesocarnivore spatial behaviors. My study demonstrates how mesocarnivores respond to habitat and prey resources and risks associated with human development. Using this information, I present a framework for predicting how species may respond to changes in their environments, as well as provide further insight into how mesocarnivores may affect ungulate recruitment.

bobcat

coyote

habitat selection

predation

spatial ecology

wildlife movement

Factors affecting piping plover (Charadrius melodus) nest site selection following landscape and predator community changes

Dorsey, Sharon Selena-Lee

18 January 2024

The dynamics of coastal landscapes following major storm events and human interventions significantly impact nesting habitat use by species like the piping plover (Charadrius melodus) along Atlantic coastlines. Our study focused on Fire Island, New York, assessing changes in vegetation succession, plover nesting habitat selection, and suitable nesting habitat availability from 2010 until eight years after Hurricane Sandy. We analyzed classified imagery to quantify vegetative cover changes across the landscape and at nest sites. Results showed an increase of 11.5% change in vegetative cover across the study area, and nest sites experienced an increase in vegetation cover from 0.1% to 6.2% between 2015 and 2020. Selection for four habitat variables (i.e., distance to ocean, least-cost distance to bay, elevation, backshore width) was consistent throughout the study, but post-hurricane nests were situated farther from development and closer to bay areas (Euclidean distance) compared to pre-hurricane. Moreover, suitable nesting habitat peaked immediately post-stabilization but declined in subsequent years. Understanding these landscape shifts provides insights into species prioritization of habitat characteristics during nesting. Piping plovers face predation threats during breeding seasons while balancing consideration of the aforementioned habitat considerations, leading to specific nest placement strategies. Our study examined the relationship between nest site selection and the area visible from nests (viewshed) and evaluated its addition in nest site selection models including habitat variables. Piping plovers exhibited a preference for nest sites with increased predator visibility compared to random selection, indicating a strategic selection process. Initially influential (β = 0.43; CI = 0.28 – 0.58), the role of this predator visibility ('viewshed') diminished (β = -0.13; CI = -0.23– -0.04) as the landscape underwent ecological succession. Topographic variation caused greater visual obstruction at nest sites than vegetation. This study on piping plovers offers insights into the interaction between landscape changes, habitat selection, and predator visibility. The evolving importance of viewshed in nest site selection underscores the dynamic nature of nesting strategies in response to changing environments, and incorporation of this variable can improve the predictive ability of other models as it did for this study. These findings have broader implications for ground-nesting bird species and highlight the importance of considering landscape changes and predator visibility in land management strategies to safeguard vulnerable avian populations. / Master of Science / This is a study of piping plover (Charadrius melodus) nesting behaviors and nesting habitat conditions on Fire Island, New York prior to and following Hurricane Sandy in 2012. Over a decade, our observations documented remarkable alterations in both the landscape and nesting preferences of these birds. Vegetation that was initially covered by overwashed sand from the storm re-emerged in many areas across the study area and reduced the amount of suitable nesting habitat for plovers. Although some factors consistently influenced nesting site selection, after Hurricane Sandy, plovers nested farther from human development and closer to the coastal bay. Moreover, our investigation extended to understanding how these birds strategically choose safe nesting grounds with optimal visibility to potential predators. Initially, plovers nested in areas with greater visibility of predators, but as the landscape experienced vegetation succession nest-site viewshed became less of a priority. We also documented sources of visual obstruction at nests and determined that the topographic features obstructed more area than vegetation; however, sand captured by vegetation contributes to hummocks and dune creation. These findings illuminate the adaptability of piping plover nesting behaviors in response to the changing landscapes. Understanding how the environment changes and how animals adapt to these changes is crucial for creating strategies to protect vulnerable bird populations like piping plovers in coastal areas.

habitat change

predation

shorebird

vegetation succession

viewshed ecology

Roles and interaction of blow flies (Diptera: Calliphoridae) and introduced fire ants (Hymenoptera: Formicidae: Solenopsis invicta and S. invicta x richteri) in carrion decomposition in the southeastern United States

De Jong, Grant

25 November 2020

Invasive fire ants (Solenopsis invicta and its hybrid with S. richteri) have been reported from carrion in the southeastern United States and are considered a part of the succession community. Alteration of ecological processes by fire ants could affect forensic interpretation of entomological data; therefore, I conducted studies to investigate the relative roles and interactions of fire ants and blow flies in carrion decomposition. The blow fly species composition in Mississippi has not been studied since 16 species were reported in 1983. Specimens from the Mississippi Entomological Museum were used to update the checklist of the blow flies of Mississippi and produce a photographic key to adults and third instar larvae. A total of 23 species of blow flies are now known or expected to occur in the state. I conducted an experiment whereby portions of the succession fauna were excluded from access to carrion to study the relative effects of fire ants and blow flies on carrion decomposition and their interactions with each other. Fire ants made lesions in and partially buried carcasses, but their exclusion did not affect carrion decomposition rates; slightly affected the succession community; and strongly affected succession of blow flies, specifically. Lastly, I collected fire ants from mounds at set distances from carrion and analyzed their guts for pig and blow fly DNA. The probability of detecting pig or blow fly DNA in ants collected directly from carrion increased with each succeeding day, and the probability of detecting either pig or blow fly DNA in ant guts decreased with increasing distance between carrion and the mound. Probability of detecting pig or blow fly DNA in ant guts from ants collected directly from the carcasses was 42% and 33%, respectively. This study documented that fire ants scavenge on carrion, prey on other members of the succession fauna, and transfer acquired nutrients at least 3 m into the landscape. Thus, fire ants represent a barrier to normal faunal succession patterns on carrion and these delays should be considered by forensic entomologists for postmortem interval estimation.

forensic entomology

competition

ecology

predation

exclusion

DNA barcoding