Grantees: Michael Cherry, Joe Hediger

Institutions: Caesar Kleberg Wildlife Research Institute, Texas A&M University, University of Massachusetts Dartmouth, United States

Grant amount: $25,860

Grant type: Small grants

Focal species: White-tailed deer (Odocoileus virginianus)

Conservation status: Least concern

Disciplines: Physiology, animal welfare science

Research location: United States

Project summary

Wildlife are susceptible to both direct and indirect effects of thermal stress imposed by a warming climate. Direct effects include increased energetic costs to maintain a healthy body temperature and immune system impairment, while indirect effects include changes in food availability and increases in disease transmission. White-tailed deer (Odocoileus virginianus) in southern Texas are on the front lines of this environmental challenge. This project aims to assess the reliability of fecal tri-iodothyronine (T3) and fecal glucocorticoids (FGC) as non-invasive physiological metrics for monitoring the health of white-tailed deer. The use of T3 as an indicator of wildlife health and welfare is relatively novel, and the researchers will attempt to refine the use of these metrics through controlled experiments, correlating the T3 measurements with a more widely used indicator in FGC. Both physiological indicators will also be validated against behavioral observations of the same deer that are thought to reflect their emotional state.

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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Grantee: Ross MacLeod

Institution: Liverpool John Moores University, United Kingdom

Grant amount: $29,810

Grant type: Small grants

Focal species: Wild birds

Conservation status: Least concern

Disciplines: Physiology, animal welfare science, population ecology, ornithology

Research location: United Kingdom

Project summary

This project aims to test and validate a standardized multi-species approach to monitoring physiological stress in wild birds by using thermal imaging cameras to measure the animals’ body surface temperature, which could enable tracking of chronic stress in wild populations facing different levels of environmental stressors. Building on pilot work, the project will focus on wild bird populations to develop a standardized thermal imaging methodology capable of monitoring surface temperature of a wide range of free-living wild animals. The methodology will be validated using bird communities visiting 54 standardized feeding and drinking stations spread across three urban-rural gradients in the UK, to quantify how changes in surface temperature are linked to starvation risk, predation risk, and human disturbance.

Why we funded this project

This approach to measuring wild animals’ physiological stress levels through thermal imaging analysis has great potential for scalable monitoring of large numbers of individuals and is usable for cross-species comparisons. We appreciated that this team was interested in addressing non-anthropogenic causes of suffering in starvation and predation, and in extending their method to other species that tend to be neglected (e.g., wild rodents). This work also relates to the project by Paul Jerem that we previously funded, creating a longer-term relationship between Wild Animal Initiative and project participants.

Find Ross’ other project, studying house sparrows, here.

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Grantee: Cameron Semper

Institution: University of Calgary, University of Lethbridge, Canada

Grant amount: $30,000

Grant type: Small grants

Focal species: Deer mice (Peromyscus sp.)

Conservation status: Least concern

Disciplines: Infectious disease, physiology, animal welfare science

Research location: Canada

Project summary

Loop-mediated isothermal amplification (LAMP) is a low-cost technique that amplifies specific DNA to levels that can enable visual detection. LAMP has been extensively applied as a point-of-care diagnostic tool for human health, but its application in wild animal populations remains underexplored. This project aims to develop LAMP assays for rapid, in situ detection of representative viral and bacterial pathogens as well as parasitic worm infections in wild animals. This project will develop two methods for detecting viral and bacterial infections, respectively. The viral test will focus on viruses that have caused epidemics in wild frigatebird and sooty tern populations, while the bacterial test will focus on tick-borne illnesses and parasitic worms which infect deer mice. After developing the LAMP assays, the researchers will validate their potential contribution to monitoring wild animal welfare in a non-invasive manner by using them to test for pathogenic load in fecal samples from deer mice. 

Why we funded this project

This research will serve as a proof-of-concept for the applicability of LAMP for monitoring infectious disease, a key determinant of wild animal welfare. Additionally, the project is specifically targeting diseases that affect a large number of animals. LAMP is simple to perform, and results can be interpreted visually without the need for sophisticated equipment, reducing the cost in time and materials for assessing disease in wild animals. Because it can be carried out in the field, follow-up treatment or further study can be immediately given to the same animal.

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Grantee: Dave Daversa

Institution: University of California, Los Angeles, United States

Grant amount: $30,000

Grant type: Small grants

Focal species: Western toad (Anaxyrus boreas)

Conservation status: Least concern

Disciplines: Physiology, herpetology, animal welfare science, population ecology, genetics/genomics

Research location: United States

Project summary

A major challenge in wild animal welfare science lies in developing composite assays that consider the full breadth of factors collectively shaping the subjective experiences of animals. This project will apply epigenetic tools to develop minimally invasive and aggregate measures of wild animal welfare. Specifically, the researchers aim to demonstrate proof of concept for a DNA methylation (DNAm)-based model of wild animal welfare. DNAm joins other measurements such as telomere attrition as a biomarker of biological aging, because DNA becomes methylated as a function of both chronological age (time) and accumulated stress. This project will characterize DNAm in western toads (Anaxyrus boreas) from wild populations in southern California, testing the influence of infection with the fungal pathogen Batrachochytrium dendrobatidis (Bd) on DNAm, and its covariance with demographic factors such as age and sex, as well as with body condition, a common metric of physical health in wild animals. Captive-reared toads representing all life stages will be sampled to characterize DNAm under controlled conditions, providing a standardized profile of DNAm rates over toad life stages. The researchers will then sample toads from wild populations experiencing starkly different levels of environmental stress (Bd infection), with accelerated biological aging signaling elevated stress and impaired welfare. 

Project objectives

Objective 1: Determine the relationship between DNAm and basic risk factors linked to welfare: chronological age, sex, weight, and infection status.

Objective 2: Determine the effect of environmental stressors on epigenetic age.

Why we funded this project

We funded this project because we are interested in the potential for biological aging biomarkers to be used as very long-term, integrative metrics of animals’ lifetime welfare. DNAm is one such potential biomarker that has received relatively little attention in a welfare context. However, DNAm may potentially be easier to measure than more commonly discussed measures of biological age — or at least, be more familiar for mainstream ecological genetics researchers — because DNA methylation is already of interest for other reasons in biological science. We were particularly enthusiastic about this project because it focuses on a species belonging to a large species complex of amphibians, including both common and threatened species, offering broad transferability and potential impact. Amphibians are also relatively neglected in terms of welfare research. We appreciate that this project aims to establish baseline age-specific differences in biological aging rate in order to then assess age-specific differences attributable to different exposures (i.e., age-specific differences in welfare), which connects to the concept of “welfare expectancy” developed by Wild Animal Initiative researcher Luke Hecht.

Find Dave’s other project, studying western fence lizards, here.

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Grantees: Luiza Figueiredo Passos

Institution: Liverpool John Moores University, United Kingdom

Grant amount: $29,060

Grant type: Small grants

Focal species: House sparrow (Passer domesticus)

Conservation status: Least concern

Disciplines: Animal welfare science, ornithology, population ecology, animal behavior

Research location: United Kingdom

Project summary

Vocalisations carry emotional, physiological, and individual information, suggesting that they can serve as potentially useful non-invasive indicators for inferring wild animal welfare. Communication of affective states via vocalization is due to changes in emotions leading to deviations in the nervous system, causing physiological changes within the vocal production systems. Modern sound analysis techniques have provided tools to discriminate, analyze, and classify specific vocalizations, permitting them to be used for monitoring welfare of different farm and laboratory animals. However, this approach lacks validation for wild individuals. This proposal aims to use passive acoustic monitoring to record wild bird calls at different locations in urban, rural, and conservation-managed areas in the UK. This project will follow a comparative approach to identify vocal patterns and chorus characteristics related to different environmental risks (starvation risk, predation risk, human disturbance, etc.) so that these vocal signatures can be used to infer the welfare status of local bird populations across different environments. The focal species will be one of Europe’s most common species, the house sparrow (Passer domesticus). House sparrows provide an ideal first validation as the species has undergone a massive population decline in many parts of its range over the past 50 years, suggesting that its local populations are facing significant welfare challenges. Validating acoustic monitoring as a tool for non-invasive welfare monitoring in the wild for the first time will provide the basis for future application to birds in general, providing a method that could be used to monitor welfare and changes in welfare of wild birds at any location globally.

Project objectives

Objective 1: Evaluate how changes in sparrow welfare driven by changes in risk of starvation can be indicated by changes in the vocal signatures of local populations.

Objective 2: Understand relationship between predation risk driven changes in sparrows’ welfare and the vocal signatures of local populations.

Objective 3: Impact of human disturbance on sparrows’ welfare.

Why we funded this project

This project is very similar to projects by Claudia Wascher and Sam Reynolds. As stated, bioacoustic monitoring is an extremely promising approach because it is minimally invasive and inexpensive. However, it still needs to be validated, and given its potential future value, we felt that it would be best for it to be validated by at least two independent studies. This project was especially appealing because it focuses on such a ubiquitous species (the house sparrow) and is led by a researcher with a strong record in bioacoustics and an understanding of animal welfare science.

Find Luiza’s other project, studying wild newts, here.

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Grantees: Claudia Wascher

Institution: Anglia Ruskin University, United Kingdom

Grant amount: $18,679

Grant type: Small grants

Focal species: Red-billed chough (Pyrrhocorax pyrrhocorax)

Conservation status: Least concern

Disciplines: Animal welfare science, ornithology, population ecology, animal behavior

Research location: United Kingdom

Project summary

In principle, animal vocalizations can be used to identify both positive and negative experiences. Specific vocal characteristics (e.g., mean fundamental frequency) and the rate of occurrence of certain call types can help to quantify animal welfare and are well-established in farm animals such as pigs, horses, cows, and chickens. But although bioacoustic monitoring is a well-established method in captive animals, the method has not been used in wild animals to assess positive and negative emotional states. This project will assess and validate the use of passive bioacoustic monitoring to assess welfare in a reintroduced population of red-billed choughs. The researchers will conduct a combination of automatic acoustic monitoring using “passive” acoustic recorders and direct observations (recording behavior via videos, monitoring activity during the night with night vision scopes, and “active” acoustic monitoring using high-quality directional microphone and parabolic dish). Their approach will allow them to record vocalizations and behavior during natural events expected to influence welfare, such as anthropogenic noise, predation events, intraspecific aggression, resting, or affiliative behaviors. 

Why we funded this project

This project will help to validate the use of passive acoustic monitoring to assess welfare states from variation in vocal behavior, which presents a non-invasive, cost-effective tool to assess the impact of positive and negative events on animal welfare. In theory, acoustic monitoring could be used to assess the welfare of a large number of individuals at a time, making it a particularly promising method to investigate.

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Grantee: Akshay Bharadwaj

Institutions: Indian Institute of Science, India

Grant amount: $15,000

Grant type: Small grants

Focal species: Multi-species birds

Conservation status: Least concern

Disciplines: Ornithology, physiology, community ecology, infections disease, population ecology

Research location: India

Project summary

This project will use mist-netting and bird-banding, followed by standardized observations of behavior and body condition, to examine the relationship between individual-level social behavior, bird health, and survival within mixed-species bird flocks (MSFs) in Eaglenest Wildlife Sanctuary, Arunachal Pradesh, India. Feather corticosterone level, ectoparasite load, and other morphological parameters will be used to measure the health of each banded individual. The researcher will also take advantage of a long-term bird-banding dataset, spanning 12 years, to examine the linkages between inter-individual differences in social behavior and the survival of each individual, comparing survival rates and reproductive success in primary and logged forest. 

Why we funded this project

Understanding the importance of multi-species flocking behavior in birds is relevant to our research priority of understanding indirect welfare effects in ecological systems, which this project approaches in a cost-effective way. We were especially impressed by the quality of the proposal for this project, particularly as it is led by a beginning graduate student in India. Funding this project serves to increase the geographic diversity of our grantee community and therefore of the nascent field of wild animal welfare research.

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Grantee: Caroline Deimel

Institutions: Max Planck Institute, Germany

Grant amount: $19,200

Grant type: Small grants

Focal species: Great tits (Parus major)

Conservation status: Least concern

Disciplines: Animal behavior, animal welfare science, physiology

Research location: Germany

Project summary

Breath rate (BR) is increasingly used as a non-invasive proxy of stress that is fast, cheap, and field-friendly. However, BR has not been evaluated in a bird welfare context, and it is unclear how it relates to established physiological proxies of stress, like glucocorticoid measurements in blood. Also, the currently used protocols to measure BR lack standardization, scalability, and validation. This project aims to provide a validated, non-invasive reference tool for standardizing BR measurements following capture and physical sampling protocols in wild birds by implementing computer vision capabilities and other improvements in software the researchers have recently developed to estimate BR metrics from mobile phone videos. This will allow the research community to gather objective, reproducible, and comparable data, and provide institutions tasked to oversee animal welfare with objective and feasible monitoring requirements. The project will also evaluate BR as a welfare indicator in great tits (Parus major), a songbird extensively used in wild animal research across Europe, by analyzing an existing, five-year dataset to test whether BR corresponds to simultaneous glucocorticoid measurements from free-living great tits. These data will provide reliable baselines and ranges for glucocorticoids and BR, and benchmarks for video recording lengths. 

Why we funded this project

We are generally interested in developing non-invasive ways of measuring indicators of wild animal welfare. One of the key advantages to non-invasive measurement, besides the obvious of not causing unnecessary fear or pain to animals, is that stress induced by the measurement process can obscure the animal’s baseline stress levels if the method is too invasive or not carried out properly. We also tentatively believe that instilling a norm of minimizing animal harm within welfare biology research will increase the likelihood that researchers act as scientist-advocates for implementation of wild animal welfare interventions. This project’s focus on making breath rate easy and inexpensive to measure in a consistent way also fits well with our desire for a greater volume and accessibility of welfare data collection.

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Grantee: Emma Stone

Institutions: Carnivore Research Malawi and University of the West of England, United Kingdom

Grant amount: $30,000

Grant type: Small grants

Focal species: Spotted hyaena (Crocuta crocuta)

Conservation status: Least concern

Disciplines: Human-wildlife conflict, physiology, animal welfare science, animal behavior, infections disease

Research location: Malawi

Grantee: Morteza Naderi

Institution: Koç University, Turkey

Grant amount: $29,955

Grant type: Small grants

Focal species: Brown bear (Ursus arctos)

Conservation status: Least concern

Disciplines: Population ecology, animal welfare science, human-wildlife conflict

Research location: Turkey