Project summary

In this project, wild-caught guppies (Poecilia reticulata) will be exposed to an apparent threat of predation by transferring water from a tank containing a common predator (pike cichlid) into their tank. The amount of water transferred from the predators’ tank will be varied to simulate a range of predator densities. Then, cortisol levels will be measured in both the tissue of guppies and the water they are kept in. These tissue and water cortisol measurements will be compared to develop a protocol for inferring the cortisol levels of fish based on non-invasive water measurements. The researchers hypothesize that the strength of the guppies’ physiological stress response (cortisol) will vary with apparent predation risk, and they intend to eventually build on this pilot study by using the developed non-invasive protocol to compare guppies from populations the are adapted to varying intensities of predation. 

Why we funded this project

This project will develop a protocol for inferring the cortisol levels of fish based on non-invasive water measurements, which should allow researchers seeking to use cortisol as a metric of physiological stress to avoid needing to kill fish in order to measure the chemical in their tissues. In terms of broader wild animal welfare theory, we also appreciate the project’s focus on the indirect effects of predator-induced fear, which are likely ubiquitous. This project is also intended as a pilot for a larger project that would investigate the impact of evolutionary adaptation to avoid predation on the stress response to the presence of predators.

Project summary

This project will investigate the welfare of a common fish species in Lake Tanganyika, the princess cichlid (Neolamprologus pulcher), as they are exposed to varying levels of human activity. Across eight populations representing a range of distances to human settlements and shipping routes, the researchers will monitor behaviors indicative of stress or aggression, and measure body condition and the brain tissue expression of five genes involved in stress physiology (glucocorticoid response pathway; crf, cyp11b, gr1, gr2, mr). These welfare indicators will be compared with specific environmental characteristics, including boat noise, water visibility (sedimentary and algal load), human fishing intensity, temperature stress, and structural complexity of the local environment.

Why we funded this project

By focusing on an established model system (cichlids), this project is able to benefit from background knowledge of the species’ ecology and behavior and proceed to more neglected welfare questions, as well as potentially engaging a ready audience of cichlid researchers. An especially interesting component of this project is its investigation of brain gene expression to potentially better understand how stress physiology relates to an animal’s subjective experience.

Project summary

This project will evaluate the welfare impacts of both urban landscapes and human-wildlife conflict scenarios, focusing in particular on those of environmental contamination (e.g., pollution, anticoagulant rodenticides) and anthropogenic disturbance by assessing how they introduce poor diet and diseases that impact wild animals’ health and behavior, potentially increasing the likelihood of further conflict in a vicious cycle. The project will use a novel method to noninvasively assess and compare the behavior, cognition, and health of urban wildlife in relation to differences in environmental conditions. The study will use motion-activated infrared trail cameras to observe the behavior and evaluate the health and cognition of urban wildlife. By measuring important facets of each individual’s behavior (e.g., risk-taking), cognition (e.g., problem-solving), and health (e.g., body condition), the project will establish an individual-based assessment of welfare. The project will also provide a welfare vulnerability assessment in relation to environmental characteristics, which will facilitate modeling and predicting welfare risk according to environmental variables, as well as identifying mitigation opportunities for reducing poor-welfare urban environments. In addition to improving understanding of the drivers of welfare in urban wildlife, the project will develop and demonstrate a novel approach that can be further used to understand individual welfare and, in particular, address limitations in the current ability to assess subjective experiences by validating the use of relevant cognitive indicators.

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Project summary

This project will use historic necropsy assessment, including body condition indicators (size and blubber layer), cause of death, age, and parasite load, coupled with drone-based photogrammetry, to establish and validate welfare proxies. The project will subsequently establish and validate remote behavioral and body conditions in grey seals as a remote welfare assessment tool. The project will further seek to understand density-dependent welfare in relation to differences in environmental conditions by comparing cortisol levels from feces, behavior, and body condition of juvenile seals in land and ice breeding colonies at different seal densities. The combined information will be used to develop predictive models that can identify welfare risk factors and opportunities to mitigate them. Finally, the project will identify and propose opportunities to alleviate stress for juveniles during land breeding years to improve welfare. The project will demonstrate proof-of-concept for a combined population modeling and behavioral/health assessment approach that can be transferred to other species to understand risk factors for poor welfare and identify opportunities for correcting them.

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Project summary

This project focuses on using survival as an indicator of welfare in relation to life history characteristics using a database of animal translocations. Traits significantly relating to successful translocation (as indicated by post-release survival) would be identified as risk or protective factors for a variety of animals. The project aims to enable inferences about welfare risk factors for species beyond the datasets available by integrating a phylogenetic approach to understanding welfare. Therefore, the project could provide valuable insights into susceptibility or life history characteristics that provide greater resilience to welfare harms and thus help characterize and prioritize sources of welfare concern in the wild. The project could directly inform translocation practices while providing insights into potential welfare interventions supporting multiple animal groups based on their life history traits. 

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Project summary

This project will study a recognized but neglected area of animal welfare research, especially important for wild animals. Specifically, the project will investigate different landscapes of fear that wild animals are exposed to and their relative welfare impacts. In addition to elucidating the direct effects of fear on stress and welfare, the project aims to improve scientific understanding of potential indirect knock-on effects that fear can cause by assessing how the lifetime welfare effects of fear vary with respect to the animal’s life history strategy, as well as provide insights into some of the system-level effects.

Further, the project seeks to apply a cutting-edge approach to the study of welfare: cumulative stress across lifespans. This study’s approach (cumulative) and timespan (lifespan) are relatively novel elements for which much greater understanding is needed. The study proposes using DNA methylation to understand the aging and health of individual animals. Additional welfare indicators are always valuable to improve our ability to assess wild animals’ welfare. However, DNA methylation, if its link to welfare can be validated, holds special potential because, like telomeres and a small group of other biomarkers of biological age, it may record cumulative stress over an animal’s lifetime. Because it is DNA-based, it could be built in as a secondary objective to mainstream conservation genetics projects.

The study will combine multiple lines of evidence of welfare (behavioral, hormonal, and epigenetic) to investigate stress and welfare, and in so doing, would address important gaps in the knowledge of welfare in the wild: understanding the impact of fear on physiological stress and its impact on long-term welfare, assessing the components of the landscape leading to a fear response and resultant difference in welfare, and understanding how variation in life history strategies differentially interact with long-term welfare. The potential for indirect, interactive system-level effects is currently one of the most important unknowns impeding wild animal welfare-focused interventions. The project is ambitious but well-considered, and it is clear that Dave and his mentors have carefully designed the methods to achieve the stated objectives.

Find Dave’s other project, studying western toads, here.

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Project summary

This project seeks to adapt a habitat and population model to incorporate welfare and apply it to the study of an abundant and widespread avian species, the house sparrow (Passer domesticus). The researchers propose to utilize a variety of welfare metrics to validate model assumptions, which will then allow them to test assumptions related to the welfare implications of density-dependent population dynamics.

Why we funded this project

We funded this project because it addresses our proposal request very closely and proposes to investigate a key wild animal welfare question using a modeling framework. They are also planning to address their question using an abundant avian species. The project has high potential to inform future work focused on modeling total welfare in a population (i.e., combining both individual welfare and population size), and to create a model that can be replicated in other systems.

Find Ross’ other project, studying wild birds, here.

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Project summary

This project seeks to determine whether the welfare of American mink (Neovison vison) is negatively impacted in the presence of high densities of Eurasian otters (Lutra lutra), whether both species’ welfare is compromised at relatively higher densities of conspecifics, and whether there is a seasonality to welfare impacts. The project will also assess whether behavioral time budget shifts in mink are associated with higher chronic stress levels, as a proxy for negative impact on mink welfare. These questions will be addressed by measuring welfare through several different domains, including behavioral (exploratory behavior, vocalizations), physical (body condition, ectoparasite load), and physiological (telomere length, fecal glucocorticoid metabolites and hair cortisol) metrics. 

Why we funded this project

This project has the potential to contribute significant information to the understanding of intra-specific density-dependent welfare and to the understanding of network effects among predator-prey and competitor interactions of wild animals. Its unusually diverse set of welfare metrics will allow for cross-validation, strengthening both this project and other projects applying the same metrics. The investigators each have a strong background in animal welfare and have made efforts to better align their work with  Wild Animal Initiative’s priorities for wild animal welfare, which makes them good candidates to carry forward the validation of these welfare indicators (particularly telomere attrition, which is still relatively immature in its use as a welfare indicator).

Find Maria’s other project, studying European minks, here.

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Project summary

This project seeks to understand the relationship between welfare and social interactions in wild bird populations. Using historical data, the researchers will also seek insight into how welfare varies among individuals in relation to the social system, early-life experiences, and interactions among individuals. They will also investigate whether social systems might play a role in helping to mitigate some of the negative anthropogenic impacts on welfare.

Why we funded this project

The study findings will help in understanding how wild animals cope with increasing temperatures and the impact of thermal stress on their welfare and health. Notably, previous work has suggested that T3 measurements in ungulates are especially sensitive to thermal stress, and so comparing T3 with other indicators based on different physiological pathways, such as glucocorticoids, could help researchers to diagnose the relative significance of different environmental stressors an animal is facing. The project’s behavioral metrics are also crucial for realizing that potential. A secondary reason for our interest in this project is that it has near-term policy implications, potentially highlighting the value of preserving or promoting specific landscape features for the ecosystem service they offer, in the form of shade, to wild ungulates.

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