Your search keyword '"WILDLIFE management"' showing total 3,085 results

1. The first record of an invasive reptile species, Pelomedusa cf. olivacea (Schweigger, 1812) (Pelomedusidae, Testudines), in the wild of South Korea

Author

Seung-Min Park, Md Mizanur Rahman, Choong-Ho Ham, and Ha-Cheol Sung

Subjects

Hongje Stream, Ecology, Mauremys reevesii, African Helmeted Turtle, wildlife management, pet trade, Ecology, Evolution, Behavior and Systematics

Abstract

Invasive species are of global conservation concern. South Korea is also facing the same challenge, especially, due to the growing pet trade. Herein, we report Pelomedusa cf. olivacea (Schweigger, 1812) from the wild in South Korea, where it has been imported as a pet. This is the first record of Pelomedusa in the Asian continent. In October 2019, we found an individual of this species beside Hongje Stream in Seoul. We recommend immediate control measures and strict monitoring of the pet trade to avoid the introduction of more invasive species.

Published

2022

2. The roles of humans and apex predators in sustaining ecosystem structure and function: Contrast, complementarity and coexistence

Author

Robert J. Lennox, Jacob W. Brownscombe, Chris Darimont, Andrij Horodysky, Taal Levi, Graham D. Raby, and Steven J. Cooke

Subjects

fisheries management, predator–prey dynamics, Matematikk og Naturvitenskap: 400::Zoologiske og botaniske fag: 480::Økologi: 488 [VDP], ecosystem function, nutrient cycling, wildlife management, Ecology, Evolution, Behavior and Systematics

Abstract

In nearly every ecosystem, human predators (hunters and fishers) exploit animals at extraordinarily high rates, as well as target different age classes and phenotypes, compared to other apex predators. Demographically decoupled from prey populations and technologically advanced, humans now impose widespread and significant ecological and evolutionary change. In this paper, we investigate whether there is evidence that humans provide complementary services and whether ecosystem services of predators can be maintained by humans where wild predators are lost. Our objective is to contribute to two key ecological themes: the compatibility of human harvesting within ecosystems and management approaches in consideration of the intentional or unintentional loss of predators. We reviewed evidence for five key effects of predators: natural selection of prey, disease dynamics, landscape effects, carbon cycling and human well-being. Without carefully designed management strategies, such changes can impose harm to ecosystems and their constituents, including humankind. Ultimately, we applied this information to consider management paradigms in which humans could better support the role of, and potentially behave more like, apex predators and discuss the challenges to such coexistence. publishedVersion

Published

2022

3. The distribution of vertebrate roadkill varies by season, surrounding environment, and animal class

Author

Jesús Arca-Rubio, Gregorio Moreno-Rueda, and Zaida Ortega

Subjects

Mammals, Animal-vehicle collisions, Road ecology, Wildlife management, Management, Monitoring, Policy and Law, Roadkill mortality, Ecology, Evolution, Behavior and Systematics, Nature and Landscape Conservation

Abstract

Due to rapid human expansion in the last century, wildlife roadkill is becoming a concerning threat to biodiversity and human safety. The frequency of roadkill events depends on factors related to specific traits of the road—tortuosity or the presence of fences, among others—and the animal ecology—such as activity patterns, reproductive season, or thermoregulation. These, in turn, are related to environmental factors, with seasonal variations. Here, we assessed roadkill mortality of terrestrial vertebrates over the year. To do this, we sampled 10 road sections (of 3 km, by walk) in the south of Spain for a full year, registering the carcasses of run-over vertebrates. Then, we analysed the spatiotemporal patterns of roadkill events for the four vertebrates’ classes and the effects of road traits (presence of fence, tortuosity, distance to water point) and environmental variables (mean temperature and precipitation). Mammals suffered the highest mortality by roadkill (45.72%). The frequency of collisions was independent of tortuosity, presence of fences, and precipitation, while mean temperature significantly increased the probability of collision of mammals, birds, and reptiles. There was a seasonal effect in the number of collisions, which spatial pattern depended on the class of vertebrates. All this leads us to conclude that, to reduce the impact caused by roadkill mortality on wildlife, we need specific measures to be taken timely in each critical place and for each vertebrate group, Funding for open access publishing: Universidad de Granada/ CBUA. Zaida Ortega was funded by a postdoctoral talent-attraction contract from the Junta de Andalucía, co-funded with European Commission funds.

Published

2023

4. Understanding anthropogenic impacts on zoogeochemistry is essential for ecological restoration

Author

Andrew J. Abraham, Ethan Duvall, Kristy Ferraro, Andrea B. Webster, Christopher E. Doughty, Elizabeth le Roux, and Diego Ellis‐Soto

Subjects

Ecology, biogeochemistry, conservation, wildlife management, rewilding, ecosystem services, Ecology, Evolution, Behavior and Systematics, nature-based solutions, Nature and Landscape Conservation, ecosystem restoration, zoogeochemistry

Abstract

Ecological restoration is critical for climate and biodiversity resilience over the coming century. Today, there is strong evidence that wildlife can significantly influence the distribution and stoichiometry of elements across landscapes, with subsequent impacts on the composition and functioning of ecosystems. Consequently, any anthropogenic activity that modifies this important aspect of zoogeochemistry, such as changes to animal community composition, diet, or movement patterns, may support or hinder restoration goals. It is therefore imperative that the zoogeochemical effects of such anthropogenic modifications are quantified and mapped at high spatiotemporal resolutions to help inform restoration strategies. Here, we first discuss pathways through which human activities shape wildlife-mediated elemental landscapes and outline why current frameworks are inadequate to characterize these processes. We then suggest improvements required to comprehensively model, validate, and monitor element recycling and redistribution by wildlife under differing wildlife management scenarios and discuss how this might be implemented in practice through a specific example in the southern Kalahari Desert. With robust ecological forecasting, zoogeochemical impacts of wildlife can thus be used to support ecological restoration and nature-based solutions to climate change. If ignored in the restoration process, the effects of wildlife on elemental landscapes may delay, or even prevent, restoration success.

Published

2023

5. InfoFaunaFVG: a novel progressive web application for wildlife surveillance

Author

P. Tomè, S. Pesaro, M. Orioles, E. Pascotto, A. Cadamuro, and M. Galeotti

Subjects

Database, WebGIS application, Wildlife management, Progressive web application, Wildlife surveillance, Management, Monitoring, Policy and Law, Ecology, Evolution, Behavior and Systematics, Nature and Landscape Conservation

Abstract

The Department of Agricultural, Food, Environmental and Animal Sciences (DI4A) at the University of Udine, in collaboration with Friuli Venezia Giulia regional authorities, within northeastern Italy, set up a wildlife monitoring and surveillance regional network, named InfoFaunaFVG. Here we describe the development and application of this data repository system based on a novel progressive web application, and report the data gathered in the first two and a half years of its use. InfoFaunaFVG is made of a Web Database and an integrated WebGIS system. In particular, the following open source softwares are used: Apache HTTP Server, Oracle MySQL, Symfony, Apache Tomcat, GeoServer, OpenLayers. The web app can be accessed from any web browser or by installing the progressive web application in the desktop or mobile devices. In short, operating from November 2019, InfoFaunaFVG currently (April 2022) contains a total of 40,175 records, from 300 different users, from 16 institutions. Among all species recorded, mammals were 40% (16,018) of the total, whereas avian species represented 59% (23,741), and others (reptiles and amphibians) 1% (416), respectively. Two hundred twenty-six different species (175 avian and 51 mammals) were recorded. Details about causes of death and live animal rescue were reported. To date, InfoFaunaFVG has proven to be a successful wildlife data repository system providing high quality consistent, accurate and traceable data. These had a considerable impact on regional wildlife governance. In the authors’ knowledge, InfoFaunaFVG is the first example described in literature of such a progressive web application, coordinated on an institutional level, and not based on voluntary-citizen observations. InfoFaunaFVG has the potential to become the largest wildlife monitoring and surveillance data repository system on a national level.

Published

2023

6. Rapid dung removal by beetles suggests higher duiker densities in Central African rainforests

Author

Towa Olivier William Kamgaing, Zeun's Célestin Brice Dzefack, Nago Charleine Blondèle Dongmo, Maturin Tchatat, and Hirokazu Yasuoka

Subjects

dung survival time, Nki National Park, density estimation, duiker, Bushmeat hunting, wildlife management, Cameroon, dung decay, Ecology, Evolution, Behavior and Systematics, Nature and Landscape Conservation

Abstract

For many mammal species, converting dung density into population density requires accurate estimates of defaecation rate and dung survival time. The latter parameter probably varies seasonally. In Nki National Park, south-east Cameroon, we monitored 216 dung piles of the blue duiker Philantomba monticola and 373 of the red duiker group (Cephalophus spp.), major game animals in Central Africa, and estimated dung survival time across seasons. Mean survival time was 6.83 days in the major dry season and 1.21–1.81 in other seasons for the blue duiker, and 7.37 and 1.53–4.05 for red duikers, lower than the values conventionally used for density estimations in Central Africa (i.e. 18 days for the blue duiker and 21 days for red duikers). Overall, beetles removed half of the dung within 1 day of deposition. However, the proportion of dung piles that beetles removed was significantly lower in the major dry season, and other dung piles remained longer until they disappeared as a result of other factors. As shorter dung survival time results in higher estimates of population density, our findings imply that in forests with intense beetle activity, duiker densities are higher than those based on the conventional values of dung survival time. Duiker densities and dung survival time should be estimated simultaneously. To minimize the bias introduced by rapid removal of fresh dung by beetles, only fresh dung (< 3 hours old) should be monitored when estimating mean dung survival time.

Published

2022

7. Habitat quality mediates demographic response to climate in a declining large herbivore

Author

Glen S. Brown, Philip D. DeWitt, Pauline Priadka, and Frank F. Mallory

Subjects

Herbivore, education.field_of_study, Deciduous, Habitat, Ecology, Population, Wildlife, Wildlife management, Vegetation, Biology, education, Ecology, Evolution, Behavior and Systematics, Predation

Abstract

Understanding the interacting role of climate and habitat in shaping wildlife population dynamics can help to reveal synergistic pathways that drive population resilience or decline across variable and changing environments. Moose (Alces alces) is a pan-boreal herbivore experiencing population declines across large portions of North America; however, the species has shown variable response to climate across its distribution. We investigated moose demographic response to climate and evaluated the interacting role of habitat across 36 years and along a biogeographic gradient in Ontario, Canada that has experienced decadal changes to climate and habitat quality. Moose density exhibited a nonlinear trend that initially increased and then decreased over the study timeframe and was negatively affected by regional and local patterns of winter severity and later frost onset. Recruitment exhibited a monotonic decline and was positively affected by spring heat and deciduous forest cover, while also exhibiting density-dependent effects. The negative response of moose density to winter severity was reduced in Wildlife Management Units (WMUs) with higher proportions of dense canopy cover, supporting expectations that this habitat type improves moose winter mobility and predator avoidance. The negative effect of later frost onset was greater in WMUs with more regenerating forest, and both variables are associated with higher exposure to parasites and predators. Further, density-dependent effects on recruitment were suppressed by warmer springs that support vegetation productivity and in WMUs with higher proportions of dense canopy cover that can provide concealment from predators. Our study illustrates the important role habitat conditions can have to mitigate, or exacerbate, climate-change effects for a wide-spread herbivore occupying variable environments by potentially altering pathways relevant to energetic balance, predation, and parasite transmission. In this system, moose occupying sparse or regenerating forests are more susceptible to adverse climatic effects and should be managed accordingly.

Published

2022

8. Population genomics of free‐ranging Great Plains white‐tailed and mule deer reflects a long history of interspecific hybridization

Author

Fraser J. Combe, Levi Jaster, Andrew Ricketts, David Haukos, and Andrew G. Hope

Subjects

single nucleotide polymorphisms, conservation genomics, Evolution, QH359-425, Genetics, Original Article, double‐digest restriction‐site associated DNA sequencing, wildlife management, Original Articles, genetic diversity, migration, General Agricultural and Biological Sciences, Ecology, Evolution, Behavior and Systematics

Abstract

Hybridization is a natural process at species‐range boundaries that may variably promote the speciation process or break down species barriers but minimally will influence management outcomes of distinct populations. White‐tailed deer (Odocoileus virginianus) and mule deer (Odocoileus hemionus) have broad and overlapping distributions in North America and a recognized capacity for interspecific hybridization. In response to contemporary environmental change to any of one or multiple still‐unknown factors, mule deer range is contracting westward accompanied by a westward expansion of white‐tailed deer, leading to increasing interactions, opportunities for gene flow, and associated conservation implications. To quantify genetic diversity, phylogenomic structure, and dynamics of hybridization in sympatric populations of white‐tailed and mule deer, we used mitochondrial cytochrome b data coupled with SNP loci discovered with double‐digest restriction site‐associated DNA sequencing. We recovered 25,018 SNPs across 92 deer samples from both species, collected from two regions of western Kansas. Eight individuals with unambiguous external morphology representing both species were of hybrid origin (8.7%), and represented the product of multi‐generational backcrossing. Mitochondrial data showed both ancient and recent directional discordance with morphological species assignments, reflecting a legacy of mule deer males mating with white‐tailed deer females. Mule deer had lower genetic diversity than white‐tailed deer, and both mitochondrial and nuclear data suggest contemporary mule deer effective population decline. Landscape genetic analyses show relative isolation between the two study regions for white‐tailed deer, but greater connectivity among mule deer, with predominant movement from north to south. Collectively, our results suggest a long history of gene flow between these species in the Great Plains and hint at evolutionary processes that purge incompatible functional genomic elements as a result of hybridization. Surviving hybrids evidently may be reproductive, but with unknown consequences for the future integrity of these species, population trajectories, or relative susceptibility to emerging pathogens.

Published

2021

9. Zoning has little impact on the seasonal diel activity and distribution patterns of wild boar ( Sus scrofa ) in an UNESCO Biosphere Reserve

Author

Henrik Reinke, Tobias Kuemmerle, Hannes J. König, Christian Kiffner, and Oliver Keuling

Subjects

circadian rhythm, Distribution (economics), Wild boar, biology.animal, medicine, wildlife management, Wildlife management, Diel vertical migration, Research Articles, QH540-549.5, Ecology, Evolution, Behavior and Systematics, Nature and Landscape Conservation, human–wildlife conflict, Ecology, biology, urogenital system, seasonality, business.industry, Human–wildlife conflict, Biosphere, Seasonality, medicine.disease, activity patterns, Geography, protected area management, business, Zoning, Research Article

Abstract

Understanding the spatio‐temporal distribution of ungulates is important for effective wildlife management, particularly for economically and ecologically important species such as wild boar (Sus scrofa). Wild boars are generally considered to exhibit substantial behavioral flexibility, but it is unclear how their behavior varies across different conservation management regimes and levels of human pressure. To analyze if and how wild boars adjust their space use or their temporal niche, we surveyed wild boars across the core and buffer zones (collectively referred to as the conservation zone) and the transition zone of a biosphere reserve. These zones represent low and high levels of human pressure, respectively. Specifically, we employed a network of 53 camera traps distributed in the Schaalsee UNESCO Biosphere Reserve over a 14‐month period (19,062 trap nights) and estimated circadian activity patterns, diel activity levels, and occupancy of wild boars in both zones. To account for differences in environmental conditions and day length, we estimated these parameters separately for seven 2‐month periods. Our results showed that the wild boars were primarily nocturnal, with diurnal activity occurring dominantly during the summer months. The diel activity patterns in the two zones were very similar overall, although the wild boars were slightly less active in the transition zone than in the conservation zone. Diel activity levels also varied seasonally, ranging from 7.5 to 11.0 h day−1, and scaled positively with the length of the night (R 2 = 0.66–0.67). Seasonal occupancy estimates were exceptionally high (point estimates ranged from 0.65 to 0.99) and similar across zones, suggesting that the wild boars used most of the biosphere reserve. Overall, this result suggests that different conservation management regimes (in this case, the zoning of a biosphere reserve) have little impact on wild boar behavior. This finding is relevant for wildlife management in protected areas where possibly high wild boar densities could interfere with conservation goals within these areas and those of agricultural land use in their vicinity., In this study, we analyzed whether wild boars adjust their space use or their temporal niche according to spatial differences in management within a biosphere reserve. We employed a network of 53 camera traps distributed in the Schaalsee UNESCO Biosphere Reserve over a 14‐month period (19,062 trap nights) and estimated the circadian activity patterns, activity levels, and occupancy of wild boars in the conservation and transition zones; these zones represent low and high levels of human pressure, respectively. Wild boars were primarily nocturnal, diel activity levels were positively correlated with the length of the night and did not differ markedly between zones; occupancy estimates were high and were similar in both zones . Overall, these results suggests that different conservation management regimes (in this case, the zoning of a biosphere reserve) have little impact on wild boar behavior.

Published

2021

10. Grow fast, die young: Does compensatory growth reduce survival of juvenile blacktip sharks (Carcharhinus limbatus) in the western Gulf of Mexico?

Author

Philip Matich, Mark Fisher, and Jeffrey D. Plumlee

Subjects

Ecology, biology, Foraging, biology.organism_classification, Match/mismatch, Predation, natal site fidelity, allometric growth, shark nursery, Carcharhinus, match/mismatch, Juvenile, Compensatory growth (organism), Wildlife management, Allometry, parturition, QH540-549.5, Ecology, Evolution, Behavior and Systematics, Research Articles, Nature and Landscape Conservation, Research Article

Abstract

Effective conservation and management necessitate an understanding of the ecological mechanisms that shape species life histories in order to predict how variability in natural and anthropogenic impacts will alter growth rates, recruitment, and survival. Among these mechanisms, the interaction between parturition timing and prey availability frequently influences offspring success, particularly when postnatal care is absent. Here, we assess how parturition timing and nursery conditions, including prey abundance and environmental conditions, influence the growth and potential survival of blacktip sharks (Carcharhinus limbatus) in western Gulf of Mexico (GOM) estuaries over their first year. Catch data from long‐term gillnet monitoring allowed for clear delineation of cohorts based on size frequency distribution plots, and showed that late parturition cohorts born in estuaries with fewer prey resources exhibited more rapid growth than early parturition cohorts that experienced more abundant prey. Compensatory behaviors that promoted accelerated growth led to reduced second year residency, likely due to reduced survival resultant from greater risk taking and potentially due to reduced site fidelity attributed to larger body size. Water temperatures influenced blacktip growth rates through physiological increases in metabolism and potential premigratory foraging cues associated with cooling temperatures. Gradual warming of the GOM (0.03°C year−1) was also correlated with earlier parturition across the study period (1982–2017), similar to other migratory species. Considering current trends in climate and associated phenological shifts in many animals, testing hypotheses assessing compensatory growth‐risk trade‐offs is important moving forward to predict changes in life histories and associated recruitment in concert with current and future conservation actions, like wildlife management., Late parturition, reduced prey abundance, and suboptimal temperatures led to compensatory growth of juvenile blacktips during their first year prior to winter emigration. Behaviors contributing to compensatory growth likely led to observed declines in first year survival. Warming Gulf of Mexico waters from 1982 to 2017 were correlated with earlier parturition, slower growth, and higher survival of age 0 blacktips.

Published

2021

11. Bridging animal personality with space use and resource use in a free-ranging population of an asocial ground squirrel

Author

Brittany E. Davis, Nann A. Fangue, Anne E. Todgham, Jaclyn R. Aliperti, and Dirk H. Van Vuren

Subjects

education.field_of_study, biology, Boldness, media_common.quotation_subject, Home range, Population, biology.organism_classification, Spatial ecology, Personality, Animal Science and Zoology, Wildlife management, Big Five personality traits, Psychology, education, Ground squirrel, Ecology, Evolution, Behavior and Systematics, media_common, Demography

Abstract

Consistent individual differences in behaviour, or personality, likely influence patterns of space use and resource use in wild animals. However, studies on personality-dependent space use in natural ecosystems remain rare due to the difficulty of obtaining paired data sets on spatial dynamics and repeated personality measures from marked animals. We used repeated standardized assays (open field, mirror image stimulation, flight initiation distance and behaviour in trap) to perform the first characterization of personality in a free-ranging population of golden-mantled ground squirrels, Callospermophilus lateralis. We then used multilevel modelling to determine whether personality influenced 95% home range size, 50% core area size, movement speed or use of a preferred resource (‘perches’, vision-enhancing prominences such as rocks, which enhance survival) in nature. Data collected over 3 years showed that individual squirrels consistently differed in activity, sociability, boldness and aggressiveness (adjusted repeatability 0.16–0.44) and that activity was correlated with sociability (posterior mean correlation [95% credible interval] = 0.65 [0.39, 0.87]). We did not find an effect of personality on home range size, but bolder individuals maintained larger core areas than shyer individuals. More active and bolder individuals moved faster under natural conditions compared to their less active and shyer conspecifics. Individuals that scored higher for all four personality traits had more perches in both their home ranges and core areas compared to individuals with lower personality scores. Our results are indicative of personality-dependent space use and resource use in this study system. We hope our study will inspire future research that links animal personality with spatial ecology to inform wildlife management in natural ecosystems.

Published

2021

12. Gray wolf (Canis lupus) predation patterns following recent recolonization in a multi-predator, multi-prey system

Author

Darren A. Clark, Elizabeth K. Orning, and Katie M. Dugger

Subjects

Systemic lupus erythematosus, biology, ved/biology, Ecology, ved/biology.organism_classification_rank.species, biology.organism_classification, medicine.disease, Gray wolf, Predation, Canis, Ecological relationship, medicine, Animal Science and Zoology, Wildlife management, Cervus canadensis, Predator, Ecology, Evolution, Behavior and Systematics

Abstract

Predator–prey interactions are among the most fundamental of ecological relationships. Recolonizing gray wolf (Canis lupus Linnaeus, 1758) populations present new challenges for wildlife management in multi-prey, multi-carnivore systems. We documented diet composition and kill rates for wolves in a recently recolonized area over winter and summer seasons (2014–2015). Elk (Cervus canadensis Erxleben, 1777) were the primary ungulate prey (63%) located at wolf kill sites. Deer (mule deer (Odocoileus hemionus (Rafinesque, 1817)) and white-tailed deer (Odocoileus virginianus (Zimmermann, 1780))) were less prevalent than elk in wolf diets, but the amount of deer in diets (40%–50%) varied by pack and season. Juvenile elk were the most prevalent class of prey in wolf diets during summer (63.3%) and winter (36.3%), with adult elk (32.5%) observed nearly as often as juveniles in winter. Kill rates varied by season, with rates 2.3 times higher in summer (mean = 3.5 ungulates/week per pack) than winter (mean = 1.5 ungulates/week per pack), consistent with increased availability and use of neonate prey. Prey biomass acquisition did not vary by pack or season (summer = 243 kg/week per pack; winter = 182 kg/week per pack). Our study quantified predation patterns for a recolonizing wolf population, and patterns that we documented were similar to other multi-prey systems in North America.

Published

2021

13. Favoring recruitment as a conservation strategy to improve the resilience of long‐lived reptile populations: Insights from a population viability analysis

Author

Aurélien Besnard, Baptiste Angin, and Chloé Warret Rodrigues

Subjects

Iguana, education.field_of_study, Reproductive success, Ecology, Population, Biology, Capture–recapture, Lesser Antillean iguana, Mark and recapture, Population decline, Critically endangered, canalization hypothesis, Population viability analysis, recruitment, biology.animal, population dynamics, Wildlife management, wildlife management, education, Ecology, Evolution, Behavior and Systematics, QH540-549.5, Original Research, Nature and Landscape Conservation, Demography

Abstract

In long‐lived species, although adult survival typically has the highest elasticity, temporal variations in less canalized demographic parameters are the main drivers of population dynamics. Targeting recruitment rates may thus be the most effective strategy to manage these species. We analyzed 1,136 capture–recapture histories collected over 9 years in an isolated population of the critically endangered Lesser Antillean iguana, using a robust design Pradel model to estimate adult survival and recruitment rates. From an adult population size estimated at 928 in 2013, we found a yearly decline of 4% over the 8‐year period. As expected under the canalization hypothesis for a long‐lived species, adult survival was high and constant, with little possibility for improvement, whereas the recruitment rate varied over time and likely drove the observed population decline. We then used a prospective perturbation analysis to explore whether managing the species’ immature cohorts would at least slow the population decline. The prospective perturbation analysis suggested that a significant and sustained conservation effort would be needed to achieve a recruitment rate high enough to slow the population decline. We posit that the high recruitment rate achieved in 2014—likely due to the maintenance in 2012 of the main nesting sites used by this population—would be sufficient to slow this population's decline if it was sustained each year. Based on the results of diverse pilot studies we conducted, we identified the most likely threats targeting the eggs and immature cohorts, stressing the need to improve reproductive success and survival of immature iguanas. The threats we identified are also involved in the decline of several reptile species, and species from other taxa such as ground‐nesting birds. These findings on a little‐studied taxon provide further evidence that focusing on the immature life stages of long‐lived species can be key to their conservation., In long‐lived species, under normal conditions, adult survival is fairly high and constant, whereas less canalized demographic traits (e.g. the recruitment rate) vary over time and drive population trajectories. We used a long‐term set of capture–recapture data collected on a population of the critically endangered Lesser Antillean iguana, and show that the current demographic parameters will lead that population to quasi‐extinction. We also predicted population trajectories under different scenarios to forecast the magnitude of conservation effort that could halt the population decline. We finally review the threats to preadult stages and proposed actions to improve recruitment rates. Our study provides further evidence, in an understudied taxon, that managing immature stages can be key to the conservation of long‐lived species.

Published

2021

14. Gestão e pesquisa da biodiversidade em paisagens multifuncionais

Author

Luciano M. Verdade, Rita C. Bianchi, Pedro M. Galetti Jr, Vânia R. Pivello, Wesley R. Silva, and Alexandre Uezu

Subjects

agricultural landscapes, governance, paisagens agrícolas, Wildlife management, biodiversity monitoring, Gestão da fauna, FAUNA SILVESTRE, governança, monitoramento da biodiversidade, Ecology, Evolution, Behavior and Systematics

Abstract

Despite their negative environmental impacts, human-modified environments such as agricultural and urban landscapes can have a relevant role on biodiversity conservation as complements of protected areas. Such anthropized landscapes may have endangered, valuable, and nuisance species, although most of them do not fit in any of these categories. Therefore, in such environments we must deal with the same decision-making process concerning the same possible interventions proposed by Caughley (1994) to wildlife management, which are related to biological conservation, sustainable use, control/coexistence, and monitoring. Such decision-making process should be based on good science and good governance. On such context, the first step should be to implement multifunctional landscapes, which keep their primary mission of human use, but incorporate a second but fundamental mission of biological conservation. In this study we present a summary of the research carried out at the Biota Program of Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP) in this field since the late 1990's and propose priorities for biodiversity research and governance in multifunctional landscapes for the near future. Resumo Apesar de seus impactos ambientais negativos, ambientes modificados pelo homem, como paisagens agrícolas e urbanas, podem ter um papel relevante na conservação da biodiversidade como complementos de áreas protegidas. Tais paisagens antropizadas podem ter espécies ameaçadas, valiosas e incômodas, embora a maioria delas não se enquadre em nenhuma dessas categorias. Portanto, em tais ambientes devemos lidar com o mesmo processo de tomada de decisão sobre as mesmas possíveis intervenções propostas por Caughley (1994) para o manejo da vida selvagem, que estão relacionadas à conservação biológica, uso sustentável, controle/coexistência e monitoramento. Esse processo de tomada de decisão deve ser baseado em boa ciência e boa governança. Neste contexto, o primeiro passo deverá ser a implementação de paisagens multifuncionais, que mantenham a sua missão primordial de uso humano, mas que incorporem uma segunda, mas fundamental missão de conservação biológica. Neste estudo apresentamos um resumo das pesquisas realizadas no Programa Biota da Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP) neste campo desde o final da década de 1990 e propomos prioridades para pesquisa e governança da biodiversidade em paisagens multifuncionais para o futuro próximo.

Published

2022

15. Estimating preharvest density, adult sex ratio, and fecundity of white‐tailed deer using noninvasive sampling techniques

Author

Mikael Wikström, Jon E. Brommer, Jyrki Pusenius, and Jenni Poutanen

Subjects

white‐tailed deer, education.field_of_study, fecal DNA, Ecology, Population, Biology, Fecundity, Population density, Spatial Capture Recapture, Spatial Capture, White (mutation), Abundance (ecology), wildlife management, Wildlife management, Preharvest, education, Research Articles, wildlife camera, QH540-549.5, Ecology, Evolution, Behavior and Systematics, Sex ratio, Research Article, Nature and Landscape Conservation, Demography

Abstract

Adult sex ratio and fecundity (juveniles per female) are key population parameters in sustainable wildlife management, but inferring these requires abundance estimates of at least three age/sex classes of the population (male and female adults and juveniles). Prior to harvest, we used an array of 36 wildlife camera traps during 2 and 3 weeks in the early autumn of 2016 and 2017, respectively. We recorded white‐tailed deer adult males, adult females, and fawns from the pictures. Simultaneously, we collected fecal DNA (fDNA) from 92 20 m × 20 m plots placed in 23 clusters of four plots between the camera traps. We identified individuals from fDNA samples with microsatellite markers and estimated the total sex ratio and population density using spatial capture–recapture (SCR). The fDNA‐SCR analysis concluded equal sex ratio in the first year and female bias in the second year, and no difference in space use between sexes (fawns and adults combined). Camera information was analyzed in a spatial capture (SC) framework assuming an informative prior for animals’ space use, either (a) as estimated by fDNA‐SCR (same for all age/sex classes), (b) as assumed from the literature (space use of adult males larger than adult females and fawns), or (c) by inferring adult male space use from individually identified males from the camera pictures. These various SC approaches produced plausible inferences on fecundity, but also inferred total density to be lower than the estimate provided by fDNA‐SCR in one of the study years. SC approaches where adult male and female were allowed to differ in their space use suggested the population had a female‐biased adult sex ratio. In conclusion, SC approaches allowed estimating the preharvest population parameters of interest and provided conservative density estimates., Wildlife, such as these white‐tailed deer, can be studied using noninvasive methods such as pictures taken with wildlife cameras or DNA extracted from feces picked up from the forest floor. Such noninvasive methods allow studying wildlife populations with minimal disturbance but analyzing such data has its limitations and challenges. In this study, we compare the kind of insights and information we can obtain from these two approaches.

Published

2021

16. Early Career Researchers' Views on Publishing in The Journal of Wildlife Management

Author

Simona Picardi, Ashley Gramza, and Matthew Gould

Subjects

Ecology, Publishing, business.industry, General Earth and Planetary Sciences, Wildlife management, Sociology, Early career, Public relations, business, Ecology, Evolution, Behavior and Systematics, Nature and Landscape Conservation, General Environmental Science

Published

2021

17. Review of dispersal attempts at flying-fox camps in Australia

Author

Matthew Mo, Mike Roache, Billie Roberts, and Peggy Eby

Subjects

Resource (biology), biology, Human–wildlife conflict, Zoology, Pteropus, biology.organism_classification, Habitat, Human settlement, Biological dispersal, Animal Science and Zoology, Wildlife management, Socioeconomics, Relocation, Ecology, Evolution, Behavior and Systematics

Abstract

The permanent exclusion of flying-foxes from camps (camp dispersal) near human settlements is a management tool commonly used to mitigate human–wildlife conflict. We summarised information on the costs and outcomes of 48 camp dispersals in Australia. Our aim was to improve the information base on which camp management decisions are made. Camp dispersals were largely triggered by impacts on neighbouring residents (75%). A disproportionately high number occurred in 2013–14, associated with changes in Queensland flying-fox management policy following an increase in the number of urban camps. Repeat actions over months or years were typically required to exclude flying-foxes from camps (58%). In 88% of cases, replacement camps formed within 1 km and became sites of transferred conflict. Only 23% of dispersal attempts were successful in resolving conflict for communities, generally after extensive destruction of roost habitat. Costs were poorly documented, although no dispersal attempt costing less than AU$250 000 proved successful. We conclude that camp dispersal is a high-risk, high-cost tool for mitigating human–wildlife conflict, in situ management strategies and tools should be developed, evidence-based information on management options should be made available to stakeholders via a nationally curated resource library, and research is required on impacts of camp management practices on flying-foxes.

Published

2021

18. Elk Responses to Management Hunting and Hazing

Author

Julie A. Cunningham, J. Terrill Paterson, Emily S. Almberg, Jennifer D. Jones, Kelly M. Proffitt, and Karen M. Loveless

Subjects

Geography, Ecology, medicine, General Earth and Planetary Sciences, Wildlife management, Brucellosis, medicine.disease, Cervus canadensis, Ecology, Evolution, Behavior and Systematics, Nature and Landscape Conservation, General Environmental Science

Published

2021

19. A Perspective on the Journal of Wildlife Management

Author

James D. Nichols, Charles R. Anderson, Ralph J. Gutierrez, Neal D. Niemuth, Christine A. Ribic, Terry L. Shaffer, Roger D. Applegate, David L. Otis, Karl V. Miller, Evan G. Cooch, Larissa L. Bailey, John R Fieberg, Alan B. Franklin, Douglas H. Johnson, and Mary M. Rowland

Subjects

Ecology, Perspective (graphical), General Earth and Planetary Sciences, Wildlife management, Environmental ethics, Sociology, Ecology, Evolution, Behavior and Systematics, Nature and Landscape Conservation, General Environmental Science

Published

2021

20. Hunting pressure modulates the composition and size structure of terrestrial and arboreal vertebrates in Amazonian forests

Author

Andressa Barbara Scabin and Carlos A. Peres

Subjects

Arboreal locomotion, education.field_of_study, Biomass (ecology), geography.geographical_feature_category, Ecology, Defaunation, Population, Biodiversity, Old-growth forest, Geography, Frugivore, Wildlife management, education, Ecology, Evolution, Behavior and Systematics, Nature and Landscape Conservation

Abstract

Overhunting is a leading contemporary driver of tropical forest wildlife loss. The absence or extremely low densities of large-bodied vertebrates disrupts plant-animal mutualisms and consequently degrades key ecosystem services. Understanding patterns of defaunation is therefore crucial given that most tropical forests worldwide are now “half-empty”. Here we investigate changes in vertebrate community composition and size structure along a gradient of marked anthropogenic hunting pressure in the Médio Juruá region of western Brazilian Amazonia. Using a novel camera trapping grid design deployed both in the understorey and the forest canopy, we estimated the aggregate biomass of several functional groups of terrestrial and arboreal species at 28 sites along the hunting gradient. Generalized linear models (GLMs) identified hunting pressure as the most important driver of aggregate biomass for game, terrestrial, and arboreal species, as well as nocturnal rodents, frugivores, and granivores. Local hunting pressure affected vertebrate community structure as shown by both GLM and ordination analyses. The size structure of vertebrate fauna changed in heavily hunted areas due to population declines in large-bodied species and apparent compensatory increases in nocturnal rodents. Our study shows markedly altered vertebrate community structure even in remote but heavily settled areas of continuous primary forest. Depletion of frugivore and granivore populations, and concomitant density-compensation by seed predators, likely affect forest regeneration in persistently overhunted tropical forests. These findings contribute to a better understanding of how cascading effects induced by historical defaunation operate, informing wildlife management policy in tropical peri-urban, rural and wilderness areas.

Published

2021

21. Generalist bird exhibits site‐dependent resource selection

Author

Rheinhardt Scholtz, Samuel D. Fuhlendorf, Dirac Twidwell, Craig A. Davis, Samantha M. Cady, and Daniel R. Uden

Subjects

generalist species, Resource (biology), Ecology, Applied ecology, woody cover, Land cover, resource selection, Generalist and specialist species, Generalized linear mixed model, scale, Geography, Habitat, functional response, birds, Wildlife management, wildlife management, Ecology, Evolution, Behavior and Systematics, Selection (genetic algorithm), QH540-549.5, Nature and Landscape Conservation, Original Research

Abstract

Quantifying resource selection (an organism's disproportionate use of available resources) is essential to infer habitat requirements of a species, develop management recommendations, predict species responses to changing conditions, and improve our understanding of the processes that underlie ecological patterns. Because study sites, even within the same region, can differ in both the amount and the arrangement of cover types, our objective was to determine whether proximal sites can yield markedly different resource selection results for a generalist bird, northern bobwhite (Colinus virginianus). We used 5 years of telemetry locations and newly developed land cover data at two, geographically distinct but relatively close sites in the south‐central semi‐arid prairies of North America. We fit a series of generalized linear mixed models and used an information‐theoretic model comparison approach to identify and compare resource selection patterns at each site. We determined that the importance of different cover types to northern bobwhite is site‐dependent on relatively similar and nearby sites. Specifically, whether bobwhite selected for shrub cover and whether they strongly avoided trees, depended on the study site in focus. Additionally, the spatial scale of selection was nearly an order of magnitude different between the cover types. Our study demonstrates that—even for one of the most intensively studied species in the world—we may oversimplify resource selection by using a single study site approach. Managing the trade‐offs between practical, generalized conclusions and precise but complex conclusions is one of the central challenges in applied ecology. However, we caution against setting recommendations for broad extents based on information gathered at small extents, even for a generalist species at adjacent sites. Before extrapolating information to areas beyond the data collected, managers should account for local differences in the availability, arrangement, and scaling of resources., Though it is known that animals can show conditional selection responses (e.g., differential habitat selection in different areas of their range, under variable weather conditions, or in response to variable food availability), we test a scenario where ecologists might reasonably assume habitat selection patterns to be static. Specifically, we found marked differences in the direction, magnitude, and scale of habitat selection by a generalist bird at two, proximal study sites in the same area of the species' range. Our study demonstrates that—even for one of the most intensively studied species in the world—we are likely to oversimplify habitat selection by using a single study site approach.

Published

2021

22. Community awareness of critically endangered pancake tortoises ( Malacochersus tornieri ) in a village near Tarangire National Park, Tanzania: A pilot study

Author

Baltazar Mboya, Alex W. Kisingo, and Justin Raycraft

Subjects

Critically endangered, Tanzania, Geography, biology, National park, Agroforestry, Pancake tortoise, Endangered species, Wildlife management, Community-based conservation, biology.organism_classification, Ecology, Evolution, Behavior and Systematics, Wildlife conservation

Published

2021

23. Nonlethal age estimation of three threatened fish species using DNA methylation: Australian lungfish, Murray cod and Mary River cod

Author

Gavin L. Butler, Thomas Espinoza, Simon N. Jarman, Benjamin Mayne, Darren Korbie, David A. Roberts, and Steven Brooks

Subjects

0106 biological sciences, 0301 basic medicine, Endangered species, Zoology, 010603 evolutionary biology, 01 natural sciences, 03 medical and health sciences, Murray cod, Rivers, Genetics, Animals, Humans, wildlife management, Resource Article, epigenetic Clock, Zebrafish, Ecology, Evolution, Behavior and Systematics, fish, Lungfish, DNA methylation, biology, RESOURCE ARTICLES, Endangered Species, Australia, Molecular and Statistical Advance, biology.organism_classification, Fecundity, age estimation, 030104 developmental biology, Population viability analysis, Threatened species, Freshwater fish, Maccullochella, Biotechnology

Abstract

Age‐based demography is fundamental to management of wild fish populations. Age estimates for individuals can determine rates of change in key life‐history parameters such as length, maturity, mortality and fecundity. These age‐based characteristics are critical for population viability analysis in endangered species and for developing sustainable harvest strategies. For teleost fish, age has traditionally been determined by counting increments formed in calcified structures such as otoliths. However, the collection of otoliths is lethal and therefore undesirable for threatened species. At a molecular level, age can be predicted by measuring DNA methylation. Here, we use previously identified age‐associated sites of DNA methylation in zebrafish (Danio rerio) to develop two epigenetic clocks for three threatened freshwater fish species. One epigenetic clock was developed for the Australian lungfish (Neoceratodus forsteri) and the second for the Murray cod (Maccullochella peelii) and Mary River cod (Maccullochella mariensis). Age estimation models were calibrated using either known‐age individuals, ages derived from otoliths or bomb radiocarbon dating of scales. We demonstrate a high Pearson's correlation between the chronological and predicted age in both the Lungfish clock (cor = .98) and Maccullochella clock (cor = .92). The median absolute error rate for both epigenetic clocks was also low (Lungfish = 0.86 years; Maccullochella = 0.34 years). This study demonstrates the transferability of DNA methylation sites for age prediction between highly phylogenetically divergent fish species. Given the method is nonlethal and suited to automation, age prediction by DNA methylation has the potential to improve fisheries and other wildlife management settings.

Published

2021

24. Hot stuff in the bushes: Thermal imagers and the detection of burrows in vegetated sites

Author

Tarnya E. Cox, Stephen Morris, Grant Halverson, and Robert Matthews

Subjects

0106 biological sciences, Remote detection, UAV, Wildlife, Radiant heat, drone, 010603 evolutionary biology, 01 natural sciences, 03 medical and health sciences, Wildlife management, survey, remote detection, Ecology, Evolution, Behavior and Systematics, QH540-549.5, 030304 developmental biology, Nature and Landscape Conservation, Remote sensing, Original Research, 0303 health sciences, pest animals, Ecology, thermal imager, Spotlighting, Vegetation, warrens, Visual inspection, Environmental science

Abstract

Thermal imaging technology is a developing field in wildlife management. Most thermal imaging work in wildlife science has been limited to larger ungulates and surface‐dwelling mammals. Little work has been undertaken on the use of thermal imagers to detect fossorial animals and/or their burrows. Survey methods such as white‐light spotlighting can fail to detect the presence of burrows (and therefore the animals within), particularly in areas where vegetation obscures burrows. Thermal imagers offer an opportunity to detect the radiant heat from these burrows, and therefore the presence of the animal, particularly in vegetated areas. Thermal imaging technology has become increasingly available through the provision of smaller, more cost‐effective units. Their integration with drone technology provides opportunities for researchers and land managers to utilize this technology in their research/management practices.We investigated the ability of both consumer (AUD$65,000) mounted on drones to detect rabbit burrows (warrens) and entrances in the landscape as compared to visual assessment.Thermal imagery and visual inspection detected active rabbit warrens when vegetation was scarce. The presence of vegetation was a significant factor in detecting entrances (p, Thermal imaging technology is a developing field in wildlife management. We investigated the ability of both consumer and professional imagers mounted on drones to detect rabbit burrows (warrens) and entrances in the landscape as compared to visual assessment. Exportable frame rate (Hz) was the key factor in image quality and subsequent false‐positive detections. Thermal imaging technology provides an efficient method for detecting rabbit warrens and entrances in all vegetation types (open, vegetated, and mixed), surpassing visual inspection alone.

Published

2021

25. The role of western‐based scientific, Indigenous and local knowledge in wildlife management and conservation

Author

Nathan Young, Andrew N. Kadykalo, and Steven J. Cooke

Subjects

0106 biological sciences, evidence‐based conservation, knowledge‐action gap, Ecology, fish and wildlife management, 010501 environmental sciences, 010603 evolutionary biology, 01 natural sciences, Indigenous, GF1-900, Evidence-based conservation, Human ecology. Anthropogeography, Political science, evidence complacency, Wildlife management, co‐assessment, Natural resource management, Indigenous and local knowledge, Environmental planning, Ecology, Evolution, Behavior and Systematics, QH540-549.5, 0105 earth and related environmental sciences

Abstract

Managers of wildlife are faced with decisions and issues that are increasingly complex, spanning natural and human dimensions (i.e. values, preferences, attitudes). A strong evidence base that includes multiple forms and sources of knowledge is needed to support these complex decisions. However, a growing body of literature demonstrates that environmental managers are far more likely to draw on intuition, past experience or opinion to inform important decisions rather than empirical evidence. We set out to assess how decision‐makers and other potential knowledge users (a) perceive, evaluate and use western‐based scientific, Indigenous and local knowledge and (b) the extent to which social, political and economic considerations challenge the integration of different forms of evidence into decision‐making. In 2018, we interviewed members from natural resource management branches of Indigenous governments (n = 4) and parliamentary governments (n = 33), as well as representatives from nongovernmental stakeholder groups (n = 28) involved in wildlife management and conservation in the Canadian province of British Columbia. Contrary to studies that suggest evidence‐based conservation and management are rare, respondents described relying heavily on multiple forms of knowledge. Results revealed that western science is used near‐unanimously, procured from internal (i.e. institutional) sources slightly more than external ones (i.e. peer‐reviewed journals, management agencies in other jurisdictions). However, we found Indigenous and local knowledge use to be much less than western scientific knowledge (approximately half as much) despite being highly valued. Perceived challenges to applying Indigenous and local knowledge include a lack of trust, hesitancy to share knowledge (particularly from Indigenous communities), difficulties in assessing reliability and difficulties discerning knowledge from advocacy. Despite high (and relatively diverse) evidence use, more than 40% of respondents perceived a diminishing role for evidence in final decisions concerning wildlife management and conservation. They associated this with decreases in institutional resources and capacity and increases in socio‐economic and political interference. We encourage transformative change in wildlife management enabling decision‐makers to draw upon multiple forms of knowledge. This transformative change should include direct involvement of knowledge holders, co‐assessment of knowledge and transparency in how (multiple forms of) evidence contribute to decision‐making. A free Plain Language Summary can be found within the Supporting Information of this article.

Published

2021

26. Evaluating livetrapping and camera-based indices of small-mammal density

Author

Laura R. Prugh, Alishia E. Orloff, and Mitchell A. Parsons

Subjects

0106 biological sciences, Calibration (statistics), 010604 marine biology & hydrobiology, Animal Science and Zoology, Small mammal, Wildlife management, Biology, 010603 evolutionary biology, 01 natural sciences, Ecology, Evolution, Behavior and Systematics, Remote sensing

Abstract

Density estimates are integral to wildlife management, but they can be costly to obtain. Indices of density may provide efficient alternatives, but calibration is needed to ensure the indices accurately reflect density. We evaluated several indices of small-mammal density using livetrapping and motion-activated cameras in the Cascade Mountains of Washington (USA). We used linear regression to compare spatially explicit capture–recapture density estimates of mice (genus Peromyscus Gloger, 1841), voles (genera Microtus Schrank, 1798 and Myodes Pallas, 1811), and chipmunks (genus Neotamias A.H. Howell, 1929) with four indices. Two indices were based on livetrapping (minimum number alive (MNA) and number of captures per 100 trap-nights) and two indices were based on photos from motion-activated cameras (proportion of cameras detecting a species and number of independent detections). We evaluated how the accuracy of trap-based indices increased with trapping effort using subsets of the full dataset (n = 7 capture occasions per site). Most indices provided reliable indicators of small-mammal density, and livetrapping indices (R2 = 0.64–0.98) outperformed camera-based indices (R2 = 0.24–0.86). All indices performed better for more abundant species. The effort required to estimate each index varied and indices that required more effort performed better. These findings should help managers, conservation practitioners, and researchers select small-mammal monitoring methods that best fit their needs.

Published

2021

27. Spatial population genetics in heavily managed species: Separating patterns of historical translocation from contemporary gene flow in white‐tailed deer

Author

Bradley T. Martin, Zachery D. Zbinden, Tyler K. Chafin, Michael E. Douglas, Marlis R. Douglas, Christopher R. Middaugh, M. Cory Gray, and Jennifer R. Ballard

Subjects

0106 biological sciences, 0301 basic medicine, Evolution, wildlife, Wildlife, Biodiversity, Population genetics, Odocoileus, 010603 evolutionary biology, 01 natural sciences, Gene flow, 03 medical and health sciences, Diversity index, Genetic drift, Genetics, QH359-425, Wildlife management, Transect, Ecology, Evolution, Behavior and Systematics, population connectivity, biology, Ecology, ddRADseq, population structure, Original Articles, biology.organism_classification, historical population dynamics, 030104 developmental biology, Geography, Biological dispersal, Original Article, genetic drift, General Agricultural and Biological Sciences, gene flow, management, SNPs

Abstract

Approximately 100 years ago, unregulated harvest nearly eliminated white-tailed deer (Odocoileus virginianus) from eastern North America, which subsequently served to catalyze wildlife management as a national priority. An extensive stock-replenishment effort soon followed, with deer broadly translocated among states as a means of re-establishment. However, an unintended consequence was that natural patterns of gene flow became obscured and pre-translocation signatures of population structure were replaced. We applied cutting-edge molecular and biogeographic tools to disentangle genetic signatures of historical management from those reflecting spatially heterogeneous dispersal by evaluating 35,099 single nucleotide polymorphisms (SNPs) derived via reduced-representation genomic sequencing from 1,143 deer sampled state-wide in Arkansas. We then employed Simpson’s diversity index to summarize ancestry assignments and visualize spatial genetic transitions. Using sub-sampled transects across these transitions, we tested clinal patterns across loci against theoretical expectations of their response under scenarios of recolonization and restricted dispersal. Two salient results emerged: (A) Genetic signatures from historic translocations are demonstrably apparent; and (B) Geographic filters (major rivers; urban centers; highways) now act as inflection points for the distribution of this contemporary ancestry. These results yielded a state-wide assessment of contemporary population structure in deer as driven by historic translocations as well as ongoing processes. In addition, the analytical framework employed herein to effectively decipher extant/historic drivers of deer distribution in Arkansas are also applicable for other biodiversity elements with similarly complex demographic histories.

Published

2021

28. Differential and interacting impacts of invasive plants and white-tailed deer in eastern U.S. forests

Author

J. Mason Heberling, William J. McShea, Andrea Dávalos, Michael A. Jenkins, Donald M. Waller, Bernd Blossey, Christopher R. Webster, Janet A. Morrison, Susan Kalisz, Victoria Nuzzo, David L. Gorchov, and Kristine M. Averill

Subjects

0106 biological sciences, Ungulate, Ecology, biology, Range (biology), animal diseases, 010604 marine biology & hydrobiology, fungi, Biodiversity, food and beverages, Introduced species, Native plant, Odocoileus, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, Invasive species, Wildlife management, Ecology, Evolution, Behavior and Systematics

Abstract

Forests in eastern North America are experiencing high densities of white-tailed deer (Odocoileus virginianus) and encroachment by invasive plants, both of which threaten native biodiversity. We review the literature on deer and invasive plant impacts focusing on studies that simultaneously evaluate the consequences of both. Deer have more frequent and more consistently negative effects than invasive plants. Widespread deer impacts now threaten many native plant species through much of their range. In contrast, invasive plant effects currently remain more localized and/or of smaller extent within forests. Deer impacts are also cumulative, hitting preferred plant species especially hard as they decline in density. This generates difficult-to-reverse legacy effects. Invasive plant effects, in contrast, tend to be more diffuse and may be more readily reversed. High deer populations also shift physical and chemical conditions in soils promoting “invasion cascades” involving non-native earthworms and certain introduced plants. Removing invasive plants without reducing deer populations can increase deer impacts on native species. Management should be integrated to address both deer and invasive plants. To safeguard and restore native biota when resources are limited, however, it may be most effective for managers to first reduce deer populations before investing in efforts to reduce invasive populations (except when invasions are at an early stage). We should rethink and reform traditional approaches to managing deer so that we can better integrate land vegetation with wildlife management to achieve broad public objectives. Interacting effects of high ungulate populations and invasive plants deserve further study to determine whether similar recommendations apply to other regions.

Published

2021

29. Tracking red deer population size using deterministic cohort analysis

Author

Luca Pedrotti, Valerio Donini, and Luca Corlatti

Subjects

0106 biological sciences, education.field_of_study, National park, Population size, Population, Linear model, Biology, 010603 evolutionary biology, 01 natural sciences, 010601 ecology, Abundance (ecology), Animal ecology, Statistics, Animal Science and Zoology, Wildlife management, education, Ecology, Evolution, Behavior and Systematics, Cohort study

Abstract

Reliable and cost-effective monitoring tools to track population size over time are of key importance for wildlife management and conservation. Deterministic cohort analysis may be used to this aim, especially in hunted populations, but it requires that all mortality events are recorded and that individual age at death is known exactly. In this study, we investigated the reliability of cohort analysis as a relative index to track over-time variation in red deer (Cervus elaphus) abundance, in the absence of exact information about natural mortality and age. Visual tooth inspection was used to age 18,390 individuals found dead or hunted between 1982 and 2020 within the Trentino sector of the Stelvio National Park and the Val di Sole hunting district (Central Italian Alps). Temporal trend of reconstructed population size was checked using spring spotlight counts as a benchmark, through the Buishand range test and a linear model. Our results showed a significant and positive relationship between reconstructed population size and spring spotlight counts between 1982 and 2013, suggesting that cohort analysis could reliably track red deer population trend up to 7 years in the past. With a relative error of + 1.1 (SD = 1.5) years in the estimation of age, and fairly stable hunting pressure, our results support the use of deterministic cohort analysis as a relative index of abundance for monitoring red deer over time, even in the absence of exact information about natural mortality. Under violation of assumptions, however, the performance of deterministic reconstruction should be carefully inspected at the management scale.

Published

2021

30. Gut microbial ecology of the Critically Endangered Fijian crested iguana (Brachylophus vitiensis): Effects of captivity status and host reintroduction on endogenous microbiomes

Author

Joseph C. Brown, Samuel J. Eliades, Cameron D. Siler, Sia Rasalato, Jhabar Vadada, Timothy J. Colston, Robert N. Fisher, Kim Gray, and Jone Niukula

Subjects

0106 biological sciences, husbandry, Brachylophus vitiensis, Captivity, Zoology, microbial restructuring, 010603 evolutionary biology, 01 natural sciences, 03 medical and health sciences, Critically endangered, Microbial ecology, biology.animal, IUCN Red List, wildlife management, Microbiome, headstart, Ecology, Evolution, Behavior and Systematics, QH540-549.5, Original Research, 030304 developmental biology, Nature and Landscape Conservation, Iguana, 0303 health sciences, biology, Ecology, conservation, biology.organism_classification, reptiles, Microbial population biology

Abstract

Animals often exhibit distinct microbial communities when maintained in captivity as compared to when in the wild. Such differentiation may be significant in headstart and reintroduction programs where individuals spend some time in captivity before release into native habitats. Using 16S rRNA gene sequencing, we (i) assessed differences in gut microbial communities between captive and wild Fijian crested iguanas (Brachylophus vitiensis) and (ii) resampled gut microbiota in captive iguanas released onto a native island to monitor microbiome restructuring in the wild. We used both cloacal swabs and fecal samples to further increase our understanding of gut microbial ecology in this IUCN Critically Endangered species. We found significant differentiation in gut microbial community composition and structure between captive and wild iguanas in both sampling schemes. Approximately two months postrelease, microbial communities in cloacal samples from formerly captive iguanas closely resembled wild counterparts. Interestingly, microbial communities in fecal samples from these individuals remained significantly distinct from wild conspecifics. Our results indicate that captive upbringings can lead to differences in microbial assemblages in headstart iguanas as compared to wild individuals even after host reintroduction into native conditions. This investigation highlights the necessity of continuous monitoring of reintroduced animals in the wild to ensure successful acclimatization and release., We show that captivity impacts gut microbial assemblages in headstart animals compared with wild individuals long after host reintroduction into native conditions. This advances our understanding of microbiome diversity and evolution in a Critically Endangered reptile and shows how captivity influences the microbiome of reptiles in general.

Published

2021

31. Genetic characteristics of a small breeding population of ancient murrelets from Teuri Island, Japan, based on mitochondrial <scp>DNA</scp> sequences and newly‐developed microsatellite markers

Author

Isao Nishiumi, Shin Matsui, Natsuhiko Yoshikawa, and Norimasa Sugita

Subjects

Conservation genetics, Mitochondrial DNA, education.field_of_study, Ancient DNA, Evolutionary biology, Population, Microsatellite, Wildlife management, Biology, education, Ecology, Evolution, Behavior and Systematics

Published

2021

32. Leveraging genomics to understand threats to migratory birds

Author

Alec R. Lindsay, David C. Evers, Joseph D. Kaplan, Kristen C. Ruegg, Michael D. Sorenson, Christen M. Bossu, Jeffrey M. DaCosta, Thomas B. Smith, Brenda Larison, and James D. Paruk

Subjects

0106 biological sciences, 0301 basic medicine, Evolution, Range (biology), Population, Climate change, RAD sequencing, Biology, 010603 evolutionary biology, 01 natural sciences, Medicinal and Biomolecular Chemistry, 03 medical and health sciences, Common Loon, QH359-425, Genetics, wildlife management, Wildlife management, education, Ecology, Evolution, Behavior and Systematics, Evolutionary Biology, disease, education.field_of_study, botulism, Ecology, waterbirds, Outbreak, Original Articles, Annual cycle, biology.organism_classification, Breed, Gavia immer, 030104 developmental biology, conservation genomics, Common loon, Original Article, General Agricultural and Biological Sciences

Abstract

Understanding how risk factors affect populations across their annual cycle is a major challenge for conserving migratory birds. For example, disease outbreaks may happen on the breeding grounds, the wintering grounds, or during migration and are expected to accelerate under climate change. The ability to identify the geographic origins of impacted individuals, especially outside of breeding areas, might make it possible to predict demographic trends and inform conservation decision‐making. However, such an effort is made more challenging by the degraded state of carcasses and resulting low quality of DNA available. Here, we describe a rapid and low‐cost approach for identifying the origins of birds sampled across their annual cycle that is robust even when DNA quality is poor. We illustrate the approach in the common loon (Gavia immer), an iconic migratory aquatic bird that is under increasing threat on both its breeding and wintering areas. Using 300 samples collected from across the breeding range, we develop a panel of 158 single‐nucleotide polymorphisms (SNP) loci with divergent allele frequencies across six genetic subpopulations. We use this SNP panel to identify the breeding grounds for 142 live nonbreeding individuals and carcasses. For example, genetic assignment of loons sampled during botulism outbreaks in parts of the Great Lakes provides evidence for the significant role the lakes play as migratory stopover areas for loons that breed across wide swaths of Canada, and highlights the vulnerability of a large segment of the breeding population to botulism outbreaks that are occurring in the Great Lakes with increasing frequency. Our results illustrate that the use of SNP panels to identify breeding origins of carcasses collected during the nonbreeding season can improve our understanding of the population‐specific impacts of mortality from disease and anthropogenic stressors, ultimately allowing more effective management.

Published

2021

33. Is hunting nonintentionally selective? A test using game bird capture-dead recoveries

Author

Emilienne Grzegorczyk, Léa Bézier, Kévin Le‐Rest, Alain Caizergues, Charlotte Francesiaz, Jocelyn Champagnon, Matthieu Guillemain, and Cyril Eraud

Subjects

hunting, Ecology, evolution, vulnerability, selectivity, wildlife management, harvest, Ecology, Evolution, Behavior and Systematics, Nature and Landscape Conservation

Abstract

Selective hunting has various impacts that need to be considered for the conservation and management of harvested populations. The consequences of selective harvest have mostly been studied in trophy hunting and fishing, where selection of specific phenotypes is intentional. Recent studies, however, show that selection can also occur unintentionally. With at least 52 million birds harvested each year in Europe, it is particularly relevant to evaluate the selectivity of hunting on this taxon. Here, we considered 211,806 individuals belonging to 7 hunted bird species to study unintentional selectivity in harvest. Using linear mixed models, we compared morphological traits (mass, wing, and tarsus size) and body condition at the time of banding between birds that were subsequently recovered from hunting during the same year as their banding, and birds that were not recovered. We did not find any patterns showing systematic differences between recovery categories, among our model species, for the traits we studied. Moreover, when a difference existed between recovery categories, it was so small that its biological relevance can be challenged. Hunting of birds in Europe therefore does not show any form of strong selectivity on the morphological and physiological traits that we studied and should hence not lead to any change of these traits either by plastic or by evolutionary response.

Published

2022

34. Effects of forest disturbance, snow depth, and intraguild dynamics on American marten and fisher occupancy in Maine, <scp>USA</scp>

Author

Bryn E. Evans, Alessio Mortelliti, Evans, B. E., and Mortelliti, A.

Subjects

habitat modification, Ecology, mesocarnivores, camera trap, multiseason occupancy, interspecific competition, Pekania pennanti, forest management, land use, mesocarnivore, Martes americana, wildlife management, Ecology, Evolution, Behavior and Systematics

Abstract

Human land use is a driving force of habitat loss and modification globally, with consequences for wildlife species. The American marten (Martes americana) and fisher (Pekania pennanti) are forest-dependent carnivores native to North America. Both species suffered population declines due to loss of forested habitat and overharvest for furs, and continued habitat modification is an ongoing threat. Furthermore, the smaller marten may be susceptible to intraguild exclusion where the larger fisher are abundant, and both habitat modification and climate change may reduce spatial refugia available to marten. A detailed understanding of co-occurrence patterns of marten and fisher in landscapes subjected to intense forest disturbance represents a key knowledge gap for wildlife ecology and management. Maine, in the northeastern United States, supports populations of both these species. It is an extensively forested state, and the vast majority is managed as commercial timberland. We designed a large-scale field study to understand the relative importance of three sets of predictions for marten and fisher occupancy patterns where commercial silviculture is widespread: (1) The intensity of forest disturbance primarily determined both marten and fisher occupancy rates, (2) fisher occupancy was limited to areas of shallower snow and marten limited by fisher presence, or (3) both species responded to the composition of tree species within forested habitat. We collected data to test these nonmutually exclusive hypotheses via camera-trap surveys, using an experimental design balanced across a gradient of forest disturbance intensity. We deployed 197 camera stations in both summer and winter over 3 years (2017–2020). We tagged over 800,000 images and found marten at 124 (63%) and fisher at 168 (85%) of the stations. By fitting multiseason occupancy models to the data, we found that the degree of habitat disturbance negatively influenced detection, occupancy, and temporal turnover for both species. Contrary to our expectations, however, we found no evidence of interspecific competition and instead support for positive associations with detection probabilities both spatially and temporally. Both species were positively associated with forest stands containing deciduous trees. Our findings further illustrate the impact that land use has on the occupancy dynamics for these forest-dependent carnivores.

Published

2022

35. The conservation management implications of isolation by distance and high genetic diversity in Great Spotted Kiwi (Apteryx haastii)

Author

Anna Carter, Helen R. Taylor, Hugh A. Robertson, and Kristina M. Ramstad

Subjects

Genetic diversity, biology, Ecology, Genetic data, biology.organism_classification, Management implications, Genetic structure, Threatened species, Great spotted kiwi, Animal Science and Zoology, Wildlife management, human activities, Ecology, Evolution, Behavior and Systematics, Nature and Landscape Conservation, Isolation by distance

Abstract

Maintaining genetic diversity and genetic structure in threatened species is recognised as important, but genetic data are frequently missing from management plans. We use a panel of 11 highly poly...

Published

2021

36. Sign surveys can be more efficient and cost effective than driven transects and camera trapping: a comparison of detection methods for a small elusive mammal, the numbat (

Author

Anke Seidlitz, Kate A. Bryant, Nicola J. Armstrong, Adrian F. Wayne, and Mike Calver

Subjects

0106 biological sciences, education.field_of_study, Occupancy, biology, Ecology, Population, Wildlife, Context (language use), Management, Monitoring, Policy and Law, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, 010601 ecology, Survey methodology, Environmental science, Wildlife management, Numbat, Transect, education, Cartography, Ecology, Evolution, Behavior and Systematics

Abstract

Context Determining the most efficient detection method for a target species is key for successful wildlife monitoring and management. Driven transects and sign surveys are commonly used to monitor populations of the endangered numbat (Myrmecobius fasciatus). Camera trapping is being explored as a new method. These methods were unevaluated for efficacy and cost for numbat detection. Aims To compare efficacy and costing of driven transects, sign surveys and camera trapping for detecting numbats in the Upper Warren region, Western Australia. Methods Seven repeat sign surveys and driven transects, as well as 4 months of camera trapping, were conducted concurrently at 50 sites along three transects. Numbat detection rates and costing of the three techniques were compared, and detection probabilities were compared between sign surveys and camera trapping. Key results Numbat signs were detected during 88 surveys at 39 sites, exceeding camera trapping (26 detections at 13 sites) and driven transects (seven detections near five sites). The estimated probability for detecting a numbat or a sign thereof (at a site where numbats were present) ranged from 0.21 to 0.35 for a sign survey, and 0.02 to 0.06 for 7 days of camera trapping. Total survey costs were lowest for driven transects, followed by camera trapping and sign surveys. When expressed as cost per numbat detection, sign surveys were cheapest. Conclusions Comparative studies of survey methods are essential for optimal, cost-effective wildlife monitoring. Sign surveys were more successful and cost effective than camera trapping or driven transects for detecting numbats in the Upper Warren region. Together with occupancy modelling, sign surveys are appropriate to investigate changes in occupancy rates over time, which could serve as a metric for long-term numbat monitoring. Implications There is no ‘best’ method for wildlife surveys. Case-specific comparison of animal detection methods is recommended to ensure optimal methods. For the numbat population in the Upper Warren region, further studies are needed to improve numbat detection rates from camera trapping, and to test sign surveys in autumn (March to May), when surviving juvenile numbats have established their own territory and assumptions regarding population closure are less likely to be violated.

Published

2021

37. Nesting, brood rearing, and summer habitat selection by translocated greater sage‐grouse in North Dakota, USA

Author

Shawn T. O'Neil, Peter S. Coates, David K. Dahlgren, Kade D. Lazenby, and Michel T. Kohl

Subjects

0106 biological sciences, Range (biology), Population, Wildlife, translocation, 010603 evolutionary biology, 01 natural sciences, resource selection function, 03 medical and health sciences, Abundance (ecology), lcsh:QH540-549.5, greater sage‐grouse, Ecosystem, Wildlife management, Galliformes, education, Ecology, Evolution, Behavior and Systematics, Original Research, 030304 developmental biology, Nature and Landscape Conservation, land cover change, 0303 health sciences, education.field_of_study, Ecology, Geography, Habitat destruction, Habitat, lcsh:Ecology, sagebrush

Abstract

Human enterprise has led to large‐scale changes in landscapes and altered wildlife population distribution and abundance, necessitating efficient and effective conservation strategies for impacted species. Greater sage‐grouse (Centrocercus urophasianus; hereafter sage‐grouse) are a widespread sagebrush (Artemisia spp.) obligate species that has experienced population declines since the mid‐1900s resulting from habitat loss and expansion of anthropogenic features into sagebrush ecosystems. Habitat loss is especially evident in North Dakota, USA, on the northeastern fringe of sage‐grouse’ distribution, where a remnant population remains despite recent development of energy‐related infrastructure. Resource managers in this region have determined a need to augment sage‐grouse populations using translocation techniques that can be important management tools for countering species decline from range contraction. Although translocations are a common tool for wildlife management, very little research has evaluated habitat following translocation, to track individual behaviors such as habitat selection and fidelity to the release site, which can help inform habitat requirements to guide selection of future release sites. We provide an example where locations from previously released radio‐marked sage‐grouse are used in a resource selection function framework to evaluate habitat selection following translocation and identify areas of seasonal habitat to inform habitat management and potential restoration needs. We also evaluated possible changes in seasonal habitat since the late 1980s using spatial data provided by the Rangeland Analysis Platform coupled with resource selection modeling results. Our results serve as critical baseline information for habitat used by translocated individuals across life stages in this study area, and will inform future evaluations of population performance and potential for long‐term recovery., Decades of human enterprise have impacted populations of greater sage‐grouse (Centrocercus urophasianus) in the western United States. Although translocation is a viable management option to restore populations in areas where habitat has recovered, quantitative planning tools are needed to promote success of restoration efforts. We developed seasonal resource selection models for translocated sage‐grouse and evaluated habitat changes since the late 1980s to help guide future translocation decisions that will benefit population recovery.

Published

2021

38. Runway roadkill: a global review of mammal strikes with aircraft

Author

Fidelma Butler, Samantha Ball, and Anthony Caravaggi

Subjects

Airfields, Aircraft, Prévention du risque animalier, Roadkill, Aérodrome, Collisions avec la faune, Agricultural and Biological Sciences (miscellaneous), Strike mitigation, Geography, Avion, Conflit homme-faune, Aeronautics, Wildlife strikes, Wildlife management, Atténuation des collisions, Mammal strikes, Animal Science and Zoology, Mammal, Runway, Human-wildlife conflict, Collision de mammifères, Ecology, Evolution, Behavior and Systematics

Abstract

The number of reported collisions (i.e. strikes) between aircraft and wildlife is increasing globally, with consequences for personnel and passenger safety as well as for industry economics. These are important considerations for airport operators that are obliged to mitigate wildlife hazards at airfields. Incidents involving mammals account for approximately 3–10% of all recorded strikes. However, relatively little research has been conducted on mammal strikes with aircraft outside of the USA. We collate mammal strike data from six major national aviation authorities and a global aircraft database and review the available scientific and grey literature. We aim to identify which mammal families are involved in strike events and how widespread the issue is on a global scale. We also aim to demonstrate the importance of consistently recording strike instances in national databases. We identified 40 families that were involved in strike events in 47 countries. Reported mammal strike events have been increasing by up to 68% annually. Chiroptera (4 families) accounted for the greatest proportion of strikes in Australia; leporids and canids in Canada, Germany and the UK; and Chiroptera (5 families) and cervids in the USA. More mammals were struck during the landing phase of an aircraft's rotation than any other phase. Circa‐diel strike risk was greatest at dusk and circa‐annum strike risk was greatest during late summer, with some international variation. The total estimated cost of damage resulting from reported mammal strikes exceeded US$103 million in the USA alone, over 30 years. Mammal strikes represent a substantial risk in airfield environments. Monitoring of existing wild mammal populations is required to understand temporal trends in presence, abundance, and activity patterns and to inform management decisions. Increased and accurate reporting of strike events globally is needed to inform Wildlife Hazard Management Plans and support effective strike mitigation. La fréquence des collisions entre avions et animaux sauvages connait une augmentation constante à travers le monde, entrainant des conséquences pour la sécurité du personnel et des passagers ainsi que pour l'économie de l'industrie aéronautique. Il s'agit d’une considération importante pour les exploitants d'aéroports qui sont tenus d'atténuer les risques potentiels liés à la faune sauvage sur les terrains d'aviation. Les incidents impliquant des mammifères représentent environ 3 à 10 % des collisions enregistrées. Cependant, en dehors des États-Unis, relativement peu de recherches ont été menées sur les collisions entre mammifères et avions. Nous rassemblons les données sur les collisions avec des mammifères provenant de six directions nationales majeures de l’aviation civile ainsi que d'une base de données mondiale sur les aéronefs et compulsons l’ensemble de la littérature scientifique et grise disponible. Notre objectif est d’identifier les familles de mammifères impliquées dans les collisions et de déterminer l'ampleur du phénomène à l'échelle mondiale. Parallèlement, nous cherchons à démontrer l'importance de l’enregistrement systématique des cas de collisions dans les bases de données nationales. Nous avons identifié 40 familles de mammifères impliquées dans des collisions dans 47 pays, avec une forte augmentation des collisions signalées, pouvant aller jusqu'à 68% par an. Les chiroptères (4 familles) représentaient la plus grande proportion des collisions en Australie, au Canada, en Allemagne et au Royaume-Uni ce sont les léporidés et les canidés qui sont le plus souvent impliqués, et aux États-Unis, les chiroptères (5 familles) et les cervidés. Plus qu’à toute autre phase, c’est pendant la phase d'atterrissage que le nombre d’impacts le plus importants se produit. Au cours de la journée, le risque d'impact est le plus élevé au crepuscule et il connait un pic annuel à la fin de l'été et en automne, avec cependant quelques variations internationales. Sur une période de 30 ans, le coût estimé des dommages résultant des collisions signalées avec des mammifères dépasse les 103 millions de dollars US rien qu'aux États-Unis. Les collisions impliquant un mammifère représentent un risque environnemental élevé pour les aéroports, tant pour l’intégrité des avions que pour la sécurité des passagers. L’évaluation des populations de mammifères sauvages aux abords des aéroports est necessaire pour prédire les évolutions temporelles de présence, d'abondance et d’activité de ces populations. Les études permettent d'accompagner les opérateurs d’aéroports dans la prise de décision liées à la prévention des risques naturels. A l'échelle mondiale, il est nécessaire de disposer de rapports plus nombreux et plus détaillés sur les cas de collisions afin d’enrichir les stratégies de gestion des risques animaliers et de réduire efficacement le nombre de collisions.

Published

2021

39. Large carnivore hunting and the social license to hunt

Author

Chris T. Darimont, Paul C. Paquet, Lauren E. Eckert, Ilona Mihalik, Adrian Treves, Hannah Hall, and Kyle A. Artelle

Subjects

0106 biological sciences, 野生动物, Conservation of Natural Resources, Resource (biology), 社会经营许可证, Essay, wildlife, Carnivora, Wildlife, actores sociales, Legislation, Animals, Wild, 010603 evolutionary biology, 01 natural sciences, uso animal, animal use, stakeholders, social license to operate, Political science, Animals, Wildlife management, Social media, Carnivore, License, fauna, Ecology, Evolution, Behavior and Systematics, Nature and Landscape Conservation, Wildlife conservation, 利益相关者, Essays, Wolves, Ecology, 010604 marine biology & hydrobiology, conservation, Environmental ethics, conservación, licencia social para operar, 动物利用, Ursidae, 保护

Abstract

The social license to operate framework considers how society grants or withholds informal permission for resource extractors to exploit publicly owned resources. We developed a modified model, which we refer to as the social license to hunt (SLH). In it we similarly consider hunters as operators, given that wildlife are legally considered public resources in North America and Europe. We applied the SLH model to examine the controversial hunting of large carnivores, which are frequently killed for trophies. Killing for trophies is widespread, but undertaken by a minority of hunters, and can pose threats to the SLH for trophy‐seeking carnivore hunters and potentially beyond. Societal opposition to large carnivore hunting relates not only to conservation concerns but also to misalignment between killing for trophies and dominant public values and attitudes concerning the treatment of animals. We summarized cases related to the killing of grizzly bears (Ursus arctos), wolves (Canis lupus), and other large carnivores in Canada, the United States, and Europe to illustrate how opposition to large carnivore hunting, now expressed primarily on social media, can exert rapid and significant pressure on policy makers and politicians. Evidence of the potential for transformative change to wildlife management and conservation includes proposed and realized changes to legislation, business practice, and wildlife policy, including the banning of some large carnivore hunts. Given that policy is ultimately shaped by societal values and attitudes, research gaps include developing increased insight into public support of various hunting policies beyond that derived from monitoring of social media and public polling. Informed by increased evidence, the SLH model can provide a conceptual foundation for predicting the likelihood of transient versus enduring changes to wildlife conservation policy and practice for a wide variety of taxa and contexts., Article impact statement: A social license to hunt model can improve understanding of how opposition to carnivore hunting can shape policy development.

Published

2021

40. Reconsidering the role of the built environment in human–wildlife interactions

Author

Christopher Serenari

Subjects

Carnivore (software), business.industry, carnivore, Environmental resource management, Wildlife, human–wildlife interaction, infrastructure, built environment, Geography, lcsh:QH540-549.5, Wildlife management, lcsh:Ecology, lcsh:Human ecology. Anthropogeography, lcsh:GF1-900, business, social–ecological system, Ecology, Evolution, Behavior and Systematics, Built environment, Wildlife conservation

Abstract

In facing our greatest challenges, researchers have questioned where the ‘wild things’ will reside in the future, and large carnivores have been a primary focal area. The built environment plays a critical role in the propagation of countless species including carnivores; however, contemporary conceptualizations of human–nature relations do not satisfactorily attend to where the built environment should be placed within existing human–nature relation frameworks or how it impacts our ability to find space for carnivores. This paper fills this information gap by investigating the role of the built environment in social–ecological systems (SES), specifically wildlife and carnivore conservation. The paper unfolds in four stages: The first reviews empirical efforts to capture the relationship between human–natural–wildlife systems and the built environment. Second, using insights from the built environment literature, I argue that moving away from a common pool resource focus, decoupling wildlife and natural systems, investigating all infrastructure types and their interactions across systems, and considering the notion of hybrid systems offer pathways forward. Third, an explanation of the built environment's linkages to human and carnivore systems is undertaken to illustrate how the built environment facilitates the material and symbolic interactions through a blending of properties from human, wildlife and natural systems. Lastly, the argument is made that attending to the role of the built environment in human–wildlife relations can stimulate new research that reveals unhelpful habitual behaviour, feedbacks and barriers, and may also help explain unintended or unexplained consequences impacting human–carnivore relations not fully considered under existing frameworks. A free Plain Language Summary can be found within the Supporting Information of this article.

Published

2021

41. Domesticating the Exotic? An Online Survey of Attitudes towards the International Wildlife Pet Trade

Author

Andrea Contina, Lori L. Jervis, Chris Anderson, David C Hille, Jeffrey F. Kelly, Haley O Smith, Eli S. Bridge, Jennifer Koch, and William F. Oakley

Subjects

conservation biology, Higher education, Ecology, business.industry, Ecology (disciplines), social media, exotic pets, Wildlife, Management, Monitoring, Policy and Law, Variety (cybernetics), Call to action, Political science, interdisciplinary research, Social media, Wildlife management, Conservation biology, Marketing, business, Ecology, Evolution, Behavior and Systematics, QH540-549.5, Nature and Landscape Conservation

Abstract

There are a variety of perspectives on wildlife management and conservation, necessitating interdisciplinary research to develop better management strategies. We answered the call to action provided by Teel et al. (2018) to integrate social sciences into conservation and explored an important but understudied issue: views on the international pet-trade of exotic animals. Some pet owners advocate the pet trade as a means to promote conservation, where removing wild animals from their natural habitat could protect them from degraded environments. To gauge how prevalent this attitude is in a cross-national sample, we conducted an online survey that asked 882 participants worldwide to evaluate the pet trade and its relationship with biological conservation. Overall, our survey results showed regional patterns and indicated that younger respondents were more likely to consider international pet trade as a form of acceptable conservation practice compared to older respondents. Education also played a role in shaping views on the pet-trade and indicated that respondents with higher education degrees were less prone to accept pet trade as a substitute for conservation practices. Our research provides novel insights applicable to education programmes and international conservation efforts while highlighting variation in attitudes even among professionals with formal training in natural sciences and ecology.

Published

2021

42. A COMPREHENSIVE OVER 100 YEARS HISTORY OF MOUFLON (OVIS MUSIMON) IN POLAND: FROM THE PROMISING BEGINNING IN 1902 TO QUESTIONABLE FUTURE IN 2014 – A CASE STUDY OF WILDLIFE MANAGEMENT HISTORY

Author

Paweł Nasiadka, Marek Wajdzik, and Jacek Skubis

Subjects

Mouflon, Geography, biology, Zoology, Wildlife management, Ovis musimon, biology.organism_classification, Agronomy and Crop Science, Ecology, Evolution, Behavior and Systematics

Published

2021

43. Disturbance and predation risk influence vigilance synchrony of black‐necked cranes Grus nigricollis, but not as strongly as expected

Author

Yanyun Zhang, Anders Pape Møller, and Dejun Kong

Subjects

0106 biological sciences, Disturbance (geology), anthropogenic disturbance, Time allocation, Grus nigricollis, 010603 evolutionary biology, 01 natural sciences, Predation, 03 medical and health sciences, lcsh:QH540-549.5, predation risk, collective vigilance, Wildlife management, Ecology, Evolution, Behavior and Systematics, 030304 developmental biology, Nature and Landscape Conservation, Original Research, 0303 health sciences, Ecology, biology, biology.organism_classification, Vigilance (behavioural ecology), ecotourism, Threatened species, lcsh:Ecology, nature visitation, Demography

Abstract

Animals monitor surrounding dangers independently or cooperatively (synchronized and coordinated vigilance), with independent and synchronized scanning being prevalent. Coordinated vigilance, including unique sentinel behavior, is rare in nature, since it is time‐consuming and limited in terms of benefits. No evidence showed animals adopt alternative vigilance strategies during antipredation scanning yet. Considering the nonindependent nature of both synchronization and coordination, we assessed whether group members could keep alert synchronously or in a coordinated fashion under different circumstance. We studied how human behavior and species‐specific variables impacted individual and collective vigilance of globally threatened black‐necked cranes (Grus nigricollis) and explored behavior‐based wildlife management. We tested both predation risk (number of juveniles in group) and human disturbance (level and distance) effects on individual and collective antipredation vigilance of black‐necked crane families. Adults spent significantly more time (proportion and duration) on scanning than juveniles, and parents with juveniles behaved more vigilant. Both adults and juveniles increased time allocation and duration on vigilance with observer proximity. Deviation between observed and expected collective vigilance varied with disturbance and predation risk from zero, but not significantly so, indicating that an independent vigilance strategy was adopted by black‐necked crane couples. The birds showed synchronized vigilance in low disturbance areas, with fewer juveniles and far from observers; otherwise, they scanned in coordinated fashion. The collective vigilance, from synchronized to coordinated pattern, varied as a function of observer distance that helped us determine a safe distance of 403.75 m for the most vulnerable family groups with two juveniles. We argue that vigilance could constitute a prime indicator in behavior‐based species conservation, and we suggesting a safe distance of at least 400 m should be considered in future tourist management., Synchronization to coordinated vigilance pattern was first reported in a single bird species, Black‐necked crane Grus nigricollis. The bird showed synchronized vigilance in low disturbance areas, with fewer juveniles and far from observers; otherwise, they scanned in coordinated fashion. Vigilance could constitute a prime indicator in behavior‐based species conservation; a safe distance of at least 400 m was determined and should be considered in future tourist management.

Published

2021

44. Snakes on an urban plain: Temporal patterns of snake activity and human–snake conflict in Darwin, Australia

Author

Chris J. Jolly, Alana de Laive, Tom Parkin, and Brenton von Takach

Subjects

Ecology, biology, Human–wildlife conflict, Liasis fuscus, biology.organism_classification, Antaresia childreni, Urban ecology, Geography, Darwin (ADL), Wildlife management, Morelia spilota, Dendrelaphis punctulatus, Ecology, Evolution, Behavior and Systematics

Published

2020

45. Minimising mortalities in capturing wildlife: refinement of helicopter darting of chital deer (

Author

Anthony R. Pople, Matthew Amos, David M. Forsyth, Michael Brennan, and Jordan O. Hampton

Subjects

0106 biological sciences, 040301 veterinary sciences, business.industry, Ecology, Wildlife, Context (language use), 04 agricultural and veterinary sciences, Management, Monitoring, Policy and Law, 01 natural sciences, Thiafentanil, 010601 ecology, 0403 veterinary science, Animal welfare, Northern australia, Medicine, Wildlife management, business, Ecology, Evolution, Behavior and Systematics, Third stage, Demography, Capture myopathy

Abstract

Context Helicopter darting has been used to capture wild deer, but this method has never been used for chital deer (Axis axis). Aim The aims of this study were to develop, assess and refine a helicopter darting technique for wild chital deer in northern Australia by quantifying: (1) reliable pharmacological doses for immobilisation; (2) the efficacy of the technique (including the duration of procedures); and (3) the frequency of adverse animal welfare events. Methods The study was conducted in three stages: an initial protocol (n = 25 deer captured) in July−August 2018; a refined second protocol implemented in June 2019 (n = 12 deer captured); and a further refined third protocol implemented in June 2019 (n = 12 deer captured). Parameters to estimate the duration of procedures were measured and the frequency of several adverse animal welfare events during capture were quantified: mortality (at the time of capture and within 14 days of capture), hyperthermia, hypoxaemia, dart inaccuracy and manual restraint. Finally, GPS location collars with a mortality-sensing function were used to monitor post-release mortality. Results Mortality within 14 days of capture was 40% for the first stage, 25% for the second stage and 17% for the third stage. Considerable refinement of procedures occurred between stages in consultation with an Animal Ethics Committee. One-third of all 15 mortalities occurred at the time of capture and were attributed to ballistic trauma from dart impact and acute capture myopathy. The majority (n = 10) of mortalities, however, occurred post-release and were only detected by mortality-sensing GPS location collars. These post-release mortalities were attributed to capture myopathy. Conclusions Helicopter darting of wild chital deer poses animal welfare risks, but these can be minimised through the selection of the most appropriate pharmacological agents and attempts at preventing factors such as hyperthermia and hypoxaemia that contribute to the development of capture myopathy. Further research into capture protocols is needed for helicopter-based immobilisation of chital deer. Fitting animals with GPS location collars enabled post-release mortality, which was significant, to be evaluated.

Published

2020

46. Ecosystem services enhanced through soundscape management link people and wildlife

Author

Yau-Huo Shr, Clinton D. Francis, Christopher J. W. McClure, Jesse R. Barber, Crow White, Brendan Derrick Taff, Mitchell J. Levenhagen, Kurt M. Fristrup, Dylan G. E. Gomes, Zachary D. Miller, Christopher Monz, Peter Newman, Lauren A. Ferguson, and Alissa R. Petrelli

Subjects

Soundscape, business.industry, Coupled human–environment system, anthropogenic noise, Environmental resource management, psychological ecosystem services, Wildlife, soundscape mitigation, Ecosystem services, Noise, Geography, Animal ecology, lcsh:QH540-549.5, Wildlife management, protected areas, lcsh:Ecology, lcsh:Human ecology. Anthropogeography, lcsh:GF1-900, business, coupled human and natural system, Ecology, Evolution, Behavior and Systematics, Wildlife conservation

Abstract

Burgeoning urbanization, development and human activities have led to reduced opportunities for nature experience in quiet acoustic environments. Increasing noise affects both humans and wildlife alike. We experimentally altered human‐caused sound levels in a paired study using informational signs that encouraged quiet behaviours in week‐on, week‐off blocks on the trail system of Muir Woods National Monument, California, USA to test if the soundscape influences both wildlife and human experiences. Using continuous measurements from acoustic recording units (n = 13) spatially distributed within the park, we found signs significantly lowered sound levels by approximately 1.2 decibels (A‐weighted), thereby increasing listening area by 24% and bird availability by approximately 5.8% for every 1 decibel decrease. Visitor‐intercept surveys (n = 537) revealed that our mitigation increased the number of birds perceived by visitors, rankings of soundscape pleasantness, and importantly, preferences for soundscape management. By lowering human‐caused sound levels, we created an acoustic environment equivalent to a ~21% reduction in visitors. The positive feedback cycle we describe may lead to increased conservation support in a time when the extinction of nature experience looms. A free Plain Language Summary can be found within the Supporting Information of this article.

Published

2020

47. Controlling the rainbow lorikeet in Tasmania: is it too late?

Author

Susan A. Robinson, G. Barry Baker, and Candida Barclay

Subjects

Natural range, Geography, Captivity, Zoology, Animal Science and Zoology, Wildlife management, Ecology, Evolution, Behavior and Systematics, Invasive species, Nature and Landscape Conservation

Abstract

Throughout the world, many parrot species have established wild populations outside their natural range through accidental escapes and deliberate releases from captivity. The Rainbow Lorikeet (Trichoglossus moluccanus), native to coastal northern and eastern continental Australia, has established viable populations in Western Australia and New Zealand from escaped or released pets and more recently have established in Tasmania. The Western Australian experience with introduced Rainbow Lorikeets, clearly shows that significant costs and impacts to agriculture, the environment and human amenities can be expected if this species is not controlled in the early stages of population increase, while in New Zealand, early intervention has proven successful in removing the species from the wild. This study examines sighting records of Rainbow Lorikeets in Tasmania which have gradually established over 20 years and we present a model to assist in determining likely population trajectories under various scenarios of control. Modelling indicates that the removal of 200 birds per year from each of the three Tasmanian sub-populations would decrease numbers to near-zero within 4.6 years. This demonstrates the opportunity to effectively control the Rainbow Lorikeet in Tasmania still exists and substantial damage to agriculture and impacts to conservation values can be avoided, resulting in significant cost savings to the Tasmanian community.

Published

2020

48. Seroprevalence of Leptospira Among Selected Mammals on a Wildlife Management Area in Louisiana, USA

Author

Brandon Stafford, Jacob D. Bushaw, Erin E Ulrey, James M LaCour, Alaina P. Gerrits, Alessandra M Bresnan, Ashley M. Long, A Nikki Anderson, Nancy M Raginski, Jay D. Hunt, David J Moscicki, and Charles J Randel

Subjects

Leptospira, Mammals, Serotype, Veterinary medicine, Ecology, biology, animal diseases, Animals, Wild, Sigmodon hispidus, Louisiana, medicine.disease, biology.organism_classification, Antibodies, Bacterial, Leptospirosis, Titer, Seroepidemiologic Studies, medicine, Animals, Seroprevalence, Wildlife management, Leptospira interrogans, Ecology, Evolution, Behavior and Systematics

Abstract

From August to December 2018, we collected blood samples from 98 individuals of 11 mammal species to examine seroprevalence of leptospirosis at the Sherburne Wildlife Management Area in central Louisiana, USA. Overall, 21.4% of individuals tested positive for antibodies of at least one Leptospira interrogans serovar and six individuals were reactive for two or more serovars. The most prevalent serovar we detected was serovar Bratislava (19.4%), followed by serovar Grippotyphosa (6.1%), serovar Icterohaemorrhagiae and serovar Pomona (2.0%), and serovar Canicola and serovar Hardjo (1.0%). We detected the highest prevalence in fox squirrels (Sciurus niger), hispid cotton rats (Sigmodon hispidus), and feral swine (Sus scrofa), with serovar Bratislava being the most reactive for these three species. Positive samples returned titer results of 100-400 for all species and serovars, with the exception of one feral swine that returned a titer of 1,600 to serovar Bratislava, indicating an active infection. Although the potential effects of leptospirosis on our study species remains unclear, our data contribute information necessary to understand and manage potential risks of Leptospira exposure to wildlife, domestic animals, and humans.

Published

2022

49. Acoustic localisation of wildlife with low-cost equipment: lower sensitivity, but no loss of precision

Author

Bethany R. Smith, Holly Root-Gutteridge, Hannah Butkiewicz, Angela Dassow, Amy C. Fontaine, Andrew Markham, Jessica Owens, Loretta Schindler, Matthew Wijers, Arik Kershenbaum, Smith, BR [0000-0002-7435-9265], Kershenbaum, A [0000-0003-0464-0243], and Apollo - University of Cambridge Repository

Subjects

bioacoustics, multilateration, acoustic localisation, precision, wildlife management, Management, Monitoring, Policy and Law, Canis latrans, Strix varia, Ecology, Evolution, Behavior and Systematics, animal movement, Canis lupus, passive acoustic monitoring

Abstract

Context Synchronised acoustic recorders can be used as a non-invasive tool to detect and localise sounds of interest, including vocal wildlife and anthropogenic sounds. Due to the high cost of commercial synchronised recorders, acoustic localisation has typically been restricted to small or well funded surveys. Recently, low-cost acoustic recorders have been developed, but until now their efficacy has not been compared with higher specification recorders. Aims The present study aimed to compare the efficacy of a newly developed low-cost recorder, the Conservation at Range through Audio Classification and Localisation (CARACAL), with an established, high-end recorder, the Wildlife Acoustics Song Meter (SM). Methods Four recorders of each type were deployed in a paired set-up across five nights in Wisconsin, USA. The recordings allowed for manual identification of domestic dog (Canis familiaris), grey wolf (Canis lupus), coyote (Canis latrans) and barred owl (Strix varia) calls, and then the ability of each recorder type to detect and localise the vocalising animals was compared. Key results The CARACALs were less sensitive, detecting only 47.5% of wolf, 55% of coyote, 65% of barred owl and 82.5% of dog vocalisations detected by the paired SMs. However, when the same vocalisations were detected on both recorders, localisation was comparable, with no significant difference in the precision or maximum detection ranges. Conclusions Low-cost recording equipment can be used effectively for acoustic localisation of both wild and domestic animals. However, the lower sensitivity of the CARACALs means that a denser network of these recorders would be needed to achieve the same efficacy as the SMs. Deploying a greater number of cheaper recorders increases the labour time in the field and the quantity of data to process and store. Thus, there is a trade-off between cost and time to be considered. Implications The ability to use low-cost recorders for acoustic localisation provides new avenues for tracking, managing and researching a wide range of wildlife species. Presently, CARACALs are more suited to monitoring species that have small home ranges and high amplitude vocalisations, and for when a large time investment for in situ equipment checks and data processing is feasible.

Published

2022

50. Using lures for improving selectivity of bait intake by red foxes

Author

Rafael Mateo, Esther Descalzo, Pablo Ferreras, Jorge Tobajas, and Ministerio de Economía y Competitividad (España)

Subjects

Señuelos, Context (language use), macromolecular substances, Urine, Management, Monitoring, Policy and Law, Biology, Application time, Invasive species, Persistence (computer science), Especies no objetivo, Animal science, Wildlife management, Non-target species, Biología de la conservación, parasitic diseases, Selectivity, Manejo de vida silvestre, Carnivore, Animal species, Predator, Baiting, Ecology, Evolution, Behavior and Systematics, Conservation biology, Ecology, Depredadores, food and beverages, Cebo, Predators, Selectividad, Lures, geographic locations

Abstract

[Context] The use of baits for reducing the populations of harmful animal species, eradicating invasive species, vaccination, contraception or producing conditioned aversion, is widespread worldwide. However, baiting programs are often not successful enough and affect non-target species, requiring new approaches for baiting methods., [Aims] The aim of the present study was to evaluate two attractants used in carnivore studies to improve bait intake probability by red foxes and minimise bait intake by non-target species., [Methods] Non-toxic baits were distributed across 1000 ha, with bait intake monitored by camera traps during 3-week trials. Baits were assigned to two treatments with lures (lynx urine and Fatty Acid Scent – FAS) and one control. Bait intake by red foxes and non-target species was analysed using Generalised Linear Mixed Model (GLMM) and Kaplan–Meier survival analyses., [Key results] Lynx urine significantly increased the bait intake by red foxes (58.8%) compared with control (5.7%) and FAS (16.7%) treatment. However, FAS did not significantly increase the bait intake by red foxes compared with control. Bait intake by non-target species differed significantly between treatments, with lower intake in lynx urine (23.5%) treatment than control (54.7%), but not regarding FAS (36.7%), and neither between FAS and control. The probability of bait persistence after the 3-week trial period differed significantly among treatments, being lower in lynx urine treatment (0.18) than FAS (0.50) and control (0.43). All baits taken by foxes with lynx urine treatment (58.8%) occurred within the first 10 days, whereas intake by non-target species (23.5%) stopped after Day 7., [Conclusions] The use of lynx urine lure increased the proportion of baits consumed by red fox and reduced bait intake by non-target species., [Implications] Lures can serve to optimise bait delivery methods for red foxes in their different applications, such as conditioned aversion studies, vaccination, live trapping or predator control, while minimising risks to non-target species and reducing the costs and application time., This study is a result of CGL2013-40975-R project, from I+D+I National Plan funded by the Spanish Ministry of Economy and Competitiveness. Jorge Tobajas benefitted from an FPI PhD scholarship (BES-2014-068987) funded by the Spanish Ministry of Economy and Competitiveness.

Published

2022