Your search keyword '"mark-recapture"' showing total 3,306 results

151. Estimating population size and survival of adult northern pike (Esox lucius) in Lower Green Bay.

Author

Stuart, Claire E., Doll, Jason C., Forsythe, Patrick S., and Feiner, Zachary S.

Subjects

*LIFE history theory, *BAYESIAN field theory, *WATER temperature

Abstract

Complex life history behaviours like spawning migrations can complicate population assessments. However, predictable aggregation of populations at certain times of year (e.g. at spawning grounds) presents an effective way to sample species that are otherwise spatially widespread. From 2014 to 2019, a mark‐recapture study on Green Bay northern pike (Esox lucius) entering a spawning wetland was used to estimate apparent survival and population size using Bayesian inference and the Cormack–Jolly–Seber model. Population estimates and apparent survival varied from 446 to 1949 and 0.22 (males in 2017) to 0.63 (males in 2015), respectively, among years. Apparent survival also increased with maximum mean daily water temperature. Estimated capture probability was consistently low across years (<30%) despite a sampling method with high capture efficiency of fish present at the wetland, suggesting Green Bay northern pike may be exhibiting low spawning site fidelity or other life history behaviours, like skipped spawning, which reduce their capture probability at a single wetland over time. Further, spawning site selection and timing may respond to water temperatures. Surveying multiple sites could further elucidate important life history traits while refining estimates of population size and structure in large systems. [ABSTRACT FROM AUTHOR]

Published

2022

152. Adapting mark-recapture methods to estimating accepted species-level diversity: a case study with terrestrial Gastropoda.

Author

Rosenberg, Gary, Auffenberg, Kurt, Bank, Ruud, Bieler, Rüdiger, Bouchet, Philippe, Herbert, David, Köhler, Frank, Neubauer, Thomas A., Neubert, Eike, Páll-Gergely, Barna, Richling, Ira, and Schneider, Simon

Subjects

GASTROPODA, NUMBERS of species, SAMPLING errors, SPECIES diversity, CONFIDENCE intervals, GULLS

Abstract

We introduce a new method of estimating accepted species diversity by adapting mark-recapture methods to comparisons of taxonomic databases. A taxonomic database should become more complete over time, so the error bar on an estimate of its completeness and the known diversity of the taxon it treats will decrease. Independent databases can be correlated, so we use the time course of estimates comparing them to understand the effect of correlation. If a later estimate is significantly larger than an earlier one, the databases are positively correlated, if it is significantly smaller, they are negatively correlated, and if the estimate remains roughly constant, then the correlations have averaged out. We tested this method by estimating how complete MolluscaBase is for accepted names of terrestrial gastropods. Using random samples of names from an independent database, we determined whether each name led to a name accepted in MolluscaBase. A sample tested in August 2020 found that 16.7% of tested names were missing; one in July 2021 found 5.3% missing. MolluscaBase grew by almost 3,000 accepted species during this period, reaching 27,050 species. The estimates ranged from 28,409 ± 365 in 2021 to 29,063 ± 771 in 2020. All estimates had overlapping 95% confidence intervals, indicating that correlations between the databases did not cause significant problems. Uncertainty beyond sampling error added 475 ± 430 species, so our estimate for accepted terrestrial gastropods species at the end of 2021 is 28,895 ± 630 species. This estimate is more than 4,000 species higher than previous ones. The estimate does not account for ongoing flux of species into and out of synonymy, new discoveries, or changing taxonomic methods and concepts. The species naming curve for terrestrial gastropods is still far from reaching an asymptote, and combined with the additional uncertainties, this means that predicting how many more species might ultimately be recognized is presently not feasible. Our methods can be applied to estimate the total number of names of Recent mollusks (as opposed to names currently accepted), the known diversity of fossil mollusks, and known diversity in other phyla. [ABSTRACT FROM AUTHOR]

Published

2022

153. Interannual Winter Site Fidelity for Yellow and Black Rails.

Author

Butler, Christopher J., Olsen, Tabitha W., Kephart, Bailey, Wilson, Jennifer K., and Haverland, Amanda A.

Subjects

*WILDLIFE conservation, *SPARROWS, *GRASSLANDS

Abstract

Yellow Rail (Coturnicops noveboracensis) is a species of conservation concern, while the Eastern Black Rail (Laterallus jamaicensis jamaicensis) has recently been listed as Threatened. Both species winter primarily in coastal areas from Texas through North Carolina. Between-year winter site fidelities of these species have not previously been reported, so we analyzed the recapture histories of Yellow Rails banded in southeastern Oklahoma (from 2008 to 2018) and coastal Texas (from 2006 to 2018), as well as Black Rails banded in Texas from 2006 to 2018. We banded 111 Yellow Rails in Oklahoma and 421 Yellow Rails in Texas during this time, as well as 94 Black Rails in Texas. Although Yellow Rails were routinely recaptured within season, only five individuals were recaptured between years. All recaptured birds were in Texas. Black Rails likewise exhibited low interannual site fidelity, with no interannual recaptures. The apparent low interannual site fidelity of Yellow Rails (1.1% in Texas, 0% in Oklahoma) and Black Rails (0%) is similar to that reported for other grassland species wintering in grasslands in this area (e.g., LeConte's Sparrow (Ammodramus leconteii), Henslow's Sparrow (A. henslowii), and Sedge Wren (Cistothorus stellaris)), and we speculate that low site fidelity could potentially be advantageous for species that use early successional habitats. [ABSTRACT FROM AUTHOR]

Published

2022

154. Salamander Demography at Isolated Wetlands within Mature and Regenerating Forests.

Author

Church, Don R., Bailey, Larissa L., Wilbur, Henry M., Green, James H., and Hiby, Lex

Subjects

*LIFE history theory, *SALAMANDERS, *WETLANDS, *MARK & recapture (Population biology), *HABITATS

Abstract

Geographically isolated wetland and surrounding landscape features affect the ecology and life history of amphibian species. We used multistate mark recapture methods and data from over 30,000 captures of adult Ambystoma opacum to explore how survival, breeding, and movement probabilities differed among wetlands surrounded by regenerating 20-year-old clearcuts and mature 100-year-old forest stands. Survival varied among ponds and years but did not differ between regenerating and mature forest habitats. Both sexes at all ponds incurred dramatic mortality during the non-breeding season of a drought year (2001–2002). Females that skipped one or more breeding opportunities had higher breeding probabilities the following year than did successive breeders. Females exiting into regenerating forests had lower breeding probabilities at two of the three ponds. Breeding salamanders tended to make local movements from regenerating to mature forests, particularly when exiting the pond basin. Landscape movements between ponds were generally low, with few individuals moving from mature to regenerating forest habitats. We conclude that clearcuts continue to negatively impact some demographic parameters of salamanders 20 years post-cutting, but other environmental factors may mitigate these effects, and that populations are probably capable of complete recovery, particularly if some mature forest is retained. [ABSTRACT FROM AUTHOR]

Published

2022

155. Dynamics of a Western Anatolian population of Natrix natrix and Natrix tessellata (Serpentes: Natricidae).

Author

BAYRAKCI, Yusuf and AYAZ, Dinçer

Subjects

*NATRIX natrix, *NUMBERS of species, *SNAKES, *COLUBRIDAE, *SURVIVAL rate, *TRANSPONDERS

Abstract

Due to their secretive nature, snakes are the most challenging animal group for monitoring. Nevertheless, population size estimates are indispensable to accurately determining conservation status and management strategies. We used passive integrated transponder (PIT) tags to track aquatic snakes Natrix natrix and Natrix tessellata in Lake Işıklı, Denizli province, Turkey. 304 N. natrix and 1563 N. tessellata specimens were captured and marked over the four-year sampling period. Of the marked individuals, 14 N. natrix and 97 N. tessellata were recaptured at least once. The three-year average population size was estimated at 1940 ± 1055 for N. natrix, and 10,146 ± 1679 for N. tessellata. The annual survival rate is 0.57 ± 0.19 (range = 0.22-0.86) and 0.37 ± 0.06 (0.27-0.50) for N. natrix and N. tessellata, respectively. In April, which is the most active month for water snakes, 60% of the snakes were captured. This study represents the first comprehensive demographic estimates of Natrix species in Turkey. [ABSTRACT FROM AUTHOR]

Published

2022

156. Complex effects of body length and condition on within‐tributary movement and emigration in stream salmonids.

Author

Kanno, Yoichiro, Harris, Audrey C., Kishida, Osamu, Utsumi, Shunsuke, and Uno, Hiromi

Subjects

*FRESHWATER fishes, *EMIGRATION & immigration, *CHAR fish, *SURVIVAL rate, *ONCORHYNCHUS

Abstract

Movement patterns of stream fish vary individually, but little is known about how a set of individual characteristics affect movement at multiple spatial scales. We investigated the effect of body length and condition (i.e. weight relative to length) on emigration from a tributary and movement within the tributary during summer in Japanese salmonids (white‐spotted charr Salvelinus leucomaenis and masu salmon Oncorhynchus masou) using mark‐recapture and PIT antenna technology. Emigration from the tributary was influenced more strongly by body length than by body condition, whereas movement within the tributary (> 20 m) was influenced by body condition and their interaction with body length. Specifically, larger individuals in better body condition were more likely to stay locally (≤20 m), but smaller individuals in better condition were more likely to move in the tributary. We discuss benefits and costs of movement that vary with individual characteristics (i.e. body length and condition) and spatial scales. In one instance (charr between June and July), survival rates were lower in smaller individuals, which also were more likely to emigrate from the tributary, suggesting that emigration might have been facilitated by the mortality cost of staying in the tributary. This study indicates that stream fish movement is shaped by complex mechanisms that differ by spatial scale. Although complex, two study species often responded similarly, indicative of emerging regularities across species in determinants of multi‐scale stream fish movement. [ABSTRACT FROM AUTHOR]

Published

2022

157. No apparent effects of the buccal cavity attaching parasite, Salmincola sp. (Copepoda: Lernaeopodidae), on a stream salmonid: a mark-recapture study.

Author

Ayer, Christopher G., Morita, Kodai, Fukui, Sho, and Koizumi, Itsuro

Subjects

*COPEPODA, *SALMONIDAE, *CHAR fish, *HOST-parasite relationships, *PARASITES

Abstract

We evaluated the effects of a buccal cavity attaching Salmincola sp. on white-spotted charr Salvelinus leucomaenis by mark-recapture method to compare body condition, growth, and apparent survival within a headwater stream of the Shiodomari River, Hokkaido, Japan. Prevalence was 13.1–15.5% and the mean intensity was 1.2–1.3 parasites per individual (max = 4). Infected fish were significantly larger than non-infected fish and larger fish had significantly higher apparent survival, but no significant difference was detected in body condition, growth, or apparent survival between infected and non-infected fish. Prevalence and intensity in natural streams may be too low to cause harmful effects on host species. [ABSTRACT FROM AUTHOR]

Published

2022

158. REPEATED SAMPLING OF WILD INDIVIDUALS REVEALS OPHIDIOMYCES OPHIDIICOLA INFECTION DYNAMICS IN A PENNSYLVANIA SNAKE ASSEMBLAGE.

Author

Duffus, Amanda L. J., Hughes, Daniel F., Kautz, Andrea, Allain, Steven J. R., and Meshaka Jr, Walter E.

Abstract

Ophidiomyces ophidiicola is an emerging fungal pathogen associated with infections in snakes across North America. Although documented in Pennsylvania, O. ophidiicola has not been found at Powdermill Nature Reserve (PNR) in southwestern Pennsylvania, where the snake assemblage has been studied since 2002 and several species have recently declined. We surveyed for O. ophidiicola and putative ophidiomycosis at PNR. We screened five species of free-ranging, wild snakes (n=34) for suspected ophidiomycosis by visually checking for dermatitis and swabbing for the presence of O. ophidiicola DNA. We found a moderate prevalence of snakes with skin lesions (n=15) but a low prevalence of snakes with O. ophidiicola DNA in traditional PCR assays (n=2). Both positive snakes belonged to the same species and only one presented with lesions. When quantitative PCR screens were performed on duplicate swabs, 19 snakes were positive for O. ophidiicola DNA, with positive individuals in two species. Mark-recapture methods revealed seasonal variability in disease dynamics for sampled snakes. One individual presented with less than five skin lesions and tested negative in May 2020, had more than five lesions with a high fungal DNA load in June 2020, and no lesions with a low fungal DNA load in July 2020. We also found that snakes sampled from under the same cover object at the same time either all tested positive or all negative, including one instance involving two species. Our results underscore the value of using multiple screening techniques for O. ophidiicola surveillance and repeated sampling of individuals to understand the dynamics of ophidiomycosis in wild populations as compared to single method and single timepoint approaches. [ABSTRACT FROM AUTHOR]

Published

2022

159. Patterns in spatial use of land-locked Atlantic salmon (Salmo salar) in a large lake.

Author

Larocque, Sarah M., Lake, Colin, Johnson, Timothy B., and Fisk, Aaron T.

Abstract

Understanding the spatial use of reintroduced fish is useful for fisheries management and evaluating restoration success. Atlantic salmon (Salmo salar) were reintroduced into Lake Ontario in the 1990s; however, the movement ecology of these land-locked fish is unknown. Using acoustic telemetry and Floy tag mark-recaptures, we examined seasonal home range and space use of Atlantic salmon in Lake Ontario. Hatchery-raised adult Atlantic salmon were tagged with acoustic transmitters (n = 14; 8 with depth sensors) or Floy tags (n = 1915) and released. Both acoustic telemetry and Floy tag recaptures (n = 90) indicated cross lake movements, and home ranges encompassed nearly the entire lake in summer but was smaller in winter. Movements were nearshore (<2 km from shore) from spring to summer at ∼20 m bathymetric depths, with movements closer to shore in the fall, and further offshore (∼5.5 km from shore and 45 m bathymetric depths) in winter. Depth use was relatively shallow (<4 m) with occasional deeper dives (max = 28.5 m), and small diel vertical movements (1–5 m), moving deeper during daytime, consistent with ocean movements of Atlantic salmon. There appears to be spatial segregation among Atlantic salmon and other Lake Ontario salmonids, however, overlap likely occurs in nearshore waters during the spring. Wide-ranging movements of Atlantic salmon in binational (Canada/USA) waters reflects the importance of government agencies collaborating to ensure sustainable fisheries and the coordination of species restoration activities. This is the first study to provide detailed spatial use of Lake Ontario Atlantic salmon to assist in the management of this reintroduced species. [ABSTRACT FROM AUTHOR]

Published

2022

160. Mark-recapture study and habitat assessment for the northern metalmark butterfly, Calephelis borealis (Lepidoptera: Riodinidae).

Author

Henry, Weston J., Omland, Kristian S., Frye, Henry A., and Wagner, David L.

Subjects

LEPIDOPTERA, INSECT conservation, CYTOCHROME oxidase, HONEY plants, BUTTERFLIES, BEE colonies, HABITATS

Abstract

Background: The northern metalmark (Calephelis borealis), is an exceedingly local, globally rare butterfly that is declining across the Midwestern and Northeastern USA. The two principal stressors driving colony losses include afforestation and invasive plants that crowd out its larval hostplant (Packera ovata) and nectar resources. Aims/methods: To better understand its declines and guide restoration efforts, we (1) performed a mark-recapture study in Connecticut to document population trends where we were actively managing vegetation; (2) conducted a range-wide survey for evidence of phylogeographic structure, using cytochrome oxidase (CO1); (3) investigated abundance determinants of its larval foodplant, Packera ovata; and (4) visited northern metalmark populations across the Northeastern USA to identify common edaphic, structural, and community elements of its colonies. Results: We document that the species is increasing at a managed colony in Connecticut, where we opened the canopy, removed invasive plants, and added nectar resources. Common habitat attributes in the Northeastern USA include limestone soil, eastern redcedar (Juniperus virginiana), and ecotonal woodland structure that allows its shade-loving, larval hostplant (Packera obovata) to be spatially proximate to sun-loving, nectar resources. Nectar limitation is hypothesized to be a driver of colony location and success. Implications for insect conservation: Our results underscore how active plant management (canopy thinning, invasive plant removal, and the addition of nectar plants) was able to rescue an imperiled woodland butterfly, reinforce the increasingly recognized importance of nectar resources in butterfly conservation, and demonstrate how metapopulation structure can buffer against the vagaries of precipitation and other (increasingly variable) climatic factors. [ABSTRACT FROM AUTHOR]

Published

2022

161. An empirical Bayesian approach to incorporate directional movement information from a forage fish into the Arnason-Schwarz mark-recapture model

Author

Mary A. Bishop and Jordan W. Bernard

Subjects

Arnason-Schwarz, Mark-recapture, Cormack-Jolly-Seber, Bayesian, Acoustic telemetry, Partial migration, Biology (General), QH301-705.5

Abstract

Abstract Background Over the past two decades, various species of forage fish have been successfully implanted with miniaturized acoustic transmitters and subsequently monitored using stationary acoustic receivers. When acoustic receivers are configured in an array, information related to fish direction can potentially be determined, depending upon the number and relative orientation of the acoustic receivers. However, it can be difficult to incorporate directional information into frequentist mark-recapture methods. Here we show how an empirical Bayesian approach can be used to develop a model that incorporates directional movement information into the Arnason-Schwarz modeling framework to describe survival and migration patterns of a Pacific herring (Clupea pallasii) population in coastal Alaska, USA. Methods We acoustic-tagged 326 adult Pacific herring during April 2017 and 2018 while on their spawning grounds in Prince William Sound Alaska, USA. To monitor their movements, stationary acoustic receivers were deployed at strategic locations throughout the Sound. Receivers located at the major entrances to the Gulf of Alaska were arranged in parallel arrays to determine the directional movements of the fish. Informative priors were used to incorporate the directional information recorded at the entrance arrays into the model. Results A seasonal migratory pattern was found at one of Prince William Sound’s major entrances to the Gulf of Alaska. At this entrance, fish tended to enter the Gulf of Alaska during spring and summer after spawning and return to Prince William Sound during the fall and winter. Fish mortality was higher during spring and summer than fall and winter in both Prince William Sound and the Gulf of Alaska. Conclusions An empirical Bayesian modeling approach can be used to extend the Arnason-Schwarz modeling framework to incorporate directional information from acoustic arrays to estimate survival and characterize the timing and direction of migratory movements of forage fish.

Published

2021

162. Adapting mark-recapture methods to estimating accepted species-level diversity: a case study with terrestrial Gastropoda

Author

Gary Rosenberg, Kurt Auffenberg, Ruud Bank, Rüdiger Bieler, Philippe Bouchet, David Herbert, Frank Köhler, Thomas A. Neubauer, Eike Neubert, Barna Páll-Gergely, Ira Richling, and Simon Schneider

Subjects

Species richness, Diversity, Mark-recapture, Terrestrial gastropods, Taxonomic databases, Sources of uncertainty, Medicine, Biology (General), QH301-705.5

Abstract

We introduce a new method of estimating accepted species diversity by adapting mark-recapture methods to comparisons of taxonomic databases. A taxonomic database should become more complete over time, so the error bar on an estimate of its completeness and the known diversity of the taxon it treats will decrease. Independent databases can be correlated, so we use the time course of estimates comparing them to understand the effect of correlation. If a later estimate is significantly larger than an earlier one, the databases are positively correlated, if it is significantly smaller, they are negatively correlated, and if the estimate remains roughly constant, then the correlations have averaged out. We tested this method by estimating how complete MolluscaBase is for accepted names of terrestrial gastropods. Using random samples of names from an independent database, we determined whether each name led to a name accepted in MolluscaBase. A sample tested in August 2020 found that 16.7% of tested names were missing; one in July 2021 found 5.3% missing. MolluscaBase grew by almost 3,000 accepted species during this period, reaching 27,050 species. The estimates ranged from 28,409 ± 365 in 2021 to 29,063 ± 771 in 2020. All estimates had overlapping 95% confidence intervals, indicating that correlations between the databases did not cause significant problems. Uncertainty beyond sampling error added 475 ± 430 species, so our estimate for accepted terrestrial gastropods species at the end of 2021 is 28,895 ± 630 species. This estimate is more than 4,000 species higher than previous ones. The estimate does not account for ongoing flux of species into and out of synonymy, new discoveries, or changing taxonomic methods and concepts. The species naming curve for terrestrial gastropods is still far from reaching an asymptote, and combined with the additional uncertainties, this means that predicting how many more species might ultimately be recognized is presently not feasible. Our methods can be applied to estimate the total number of names of Recent mollusks (as opposed to names currently accepted), the known diversity of fossil mollusks, and known diversity in other phyla.

Published

2022

163. Population Dynamics of the Feral Pigeon in the Central Business District of Butte, Montana

Author

Richardson, Cody, Capoccia, Stella, and Hart, Julie

Subjects

bird pests, Columba livia, feral pigeon, mark-recapture, Montana, population dynamics, transect surveys, trapping

Abstract

The purpose of this study was to gather information on the feral pigeon population living in the central business district (CBD) of Butte, MT. Pigeons in the CBD have historically been part of the urban landscape and have contributed to local biodiversity. We report on an aspect of a larger study that was initiated to address complaints from business owners concerning damage caused by pigeons. To better understand feral pigeon population dynamics, we used live trapping, marking with leg bands, and survey transects to study the pigeons’ distribution, habitat selection, and dispersal. Our results thus far indicate minimal dispersal between colonies. Two individuals have shown dispersal movements of up to 6.1 km from the tagging site. Transect surveys revealed an average of 173.3 birds present, with a maximum count of 254 and minimum of 101.

Published

2016

164. Close‐kin methods to estimate census size and effective population size.

Author

Waples, Robin S. and Feutry, Pierre

Subjects

*LIFE history theory, *GENETIC drift, *BIOLOGICAL fitness, *CENSUS, *VITAL statistics

Abstract

The last two decades have witnessed rapid developments and increasing interest in use of: (1) genetic methods to estimate effective population size (Ne) and (2) close‐kin mark–recapture (CKMR) methods to estimate abundance based on the incidence of close relatives. Whereas Ne estimation methods have been applied to a wide range of taxa, all CKMR applications to date have been for aquatic species. These two fields of inquiry have developed largely independently, and this is unfortunate because deeper insights can be gained by joint evaluation of eco‐evolutionary processes. In this synthesis, we use simple analytical models and simulated pedigree data to illustrate how various factors (life‐history traits; patterns of variation in individual reproductive success; experimental design; stochasticity; marker type) can affect the performance of the estimators. We show that the Ne/N ratio and the probability of a close‐kin match both depend on a vector of parental weights that specify relative probabilities that different individuals will produce offspring. Although age‐specific vital rates are central to both methodologies, for CKMR they can potentially bias abundance estimates unless properly accounted for, whereas they represent the signals of genetic drift that Ne estimation methods depend upon. Coordinating Ne and CKMR estimation methods using the same or overlapping datasets would facilitate joint evaluation of both the ecological and evolutionary consequences of abundance. [ABSTRACT FROM AUTHOR]

Published

2022

165. A latent capture history model for digital aerial surveys.

Author

Borchers, David L., Nightingale, Peter, Stevenson, Ben C., and Fewster, Rachel M.

Subjects

*TRANSECT method, *AERIAL surveys, *HARBOR porpoise, *DIGITAL cameras, *ZOOLOGICAL surveys

Abstract

We anticipate that unmanned aerial vehicles will become popular wildlife survey platforms. Because detecting animals from the air is imperfect, we develop a mark‐recapture line transect method using two digital cameras, possibly mounted on one aircraft, which cover the same area with a short time delay between them. Animal movement between the passage of the cameras introduces uncertainty in individual identity, so individual capture histories are unobservable and are treated as latent variables. We obtain the likelihood for mark‐recapture line transects without capture histories by automatically enumerating all possibilities within segments of the transect that contain ambiguous identities, instead of attempting to decide identities in a prior step. We call this method "Latent Capture‐history Enumeration" (LCE). We include an availability model for species that are periodically unavailable for detection, such as cetaceans that are undetectable while diving. External data are needed to estimate the availability cycle length, but not the mean availability rate, if the full availability model is employed. We compare the LCE method with the recently developed cluster capture‐recapture method (CCR), which uses a Palm likelihood approximation, providing the first comparison of CCR with maximum likelihood. The LCE estimator has slightly lower variance, more so as sample size increases, and close to nominal coverage probabilities. Both methods are approximately unbiased. We illustrate with semisynthetic data from a harbor porpoise survey. [ABSTRACT FROM AUTHOR]

Published

2022

166. The contributions of individual traits to survival among terrestrial juvenile pond‐breeding salamanders.

Author

Messerman, Arianne F. and Leal, Manuel

Subjects

*SALAMANDERS, *BODY size, *VITAL statistics, *SURVIVAL rate, *SURFACE area

Abstract

Individual survival is influenced by interactions between local environmental conditions and an organism's morphological, behavioural and physiological traits. Studies examining the effects of individual phenotypes on survival under variable conditions are relatively rare among early transitional life stages, although the vital rates of these life stages can importantly influence population dynamics.We experimentally examined the effects of initial body mass, movement, standard metabolic rate (SMR) and respiratory surface area water loss (RSAWL) on survival in the transitional juvenile life stage of two biphasic amphibian species (Ambystoma maculatum and A. opacum) in a 7‐month mark–recapture study under semi‐natural conditions.Juveniles with a larger initial body mass, lower initial SMR and/or a lower tendency to change locations had a higher likelihood of known survival. In contrast, we found no significant effect of RSAWL on juvenile survival.The relationships between individual phenotypes and survival did not differ between species, but equivalent species‐specific survival rates may have been attributed to larger initial body sizes in A. maculatum and lower SMR in A. opacum.Our results illuminate the complex ways in which individual traits influence survival during the early transitional life stage of two ambystomatid species under varying abiotic conditions. More generally, our findings illustrate potential advantages of simultaneously examining multiple traits to evaluate survival. A free Plain Language Summary can be found within the Supporting Information of this article. [ABSTRACT FROM AUTHOR]

Published

2022

167. Estimating bee abundance: can mark-recapture methods validate common sampling protocols?

Author

BRIGGS, Emma L., BARANSKI, Christopher, MÜNZER SCHAETZ, Olivia, GARRISON, Gabriela, COLLAZO, Jaime A., and YOUNGSTEADT, Elsa

Abstract

Wild bees can be essential pollinators in natural, agricultural, and urban systems, but populations of some species have declined. Efforts to assess the status of wild bees are hindered by uncertainty in common sampling methods, such as pan traps and aerial netting, which may or may not provide a valid index of abundance across species and habitats. Mark-recapture methods are a common and effective means of estimating population size, widely used in vertebrates but rarely applied to bees. Here we review existing mark-recapture studies of wild bees and present a new case study comparing mark-recapture population estimates to pan trap and net capture for four taxa in a wild bee community. Net, but not trap, capture was correlated with abundance estimates across sites and taxa. Logistical limitations ensure that mark-recapture studies will not fully replace other bee sampling methods, but they do provide a feasible way to monitor selected species and measure the performance of other sampling methods. [ABSTRACT FROM AUTHOR]

Published

2022

168. Demography and site fidelity of a grassland bird, the Henslow's Sparrow, in powerline right-of-way habitat.

Author

Hunter, Elizabeth A., Dwire, Abigail, and Schneider, Todd M.

Subjects

GRASSLAND birds, RIGHT of way, HABITATS, WINTERING of birds, SPARROWS, DEMOGRAPHY

Abstract

Copyright of Journal of Field Ornithology is the property of Resilience Alliance and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2022

169. Minimum capture-recapture rates and years of banding station operations to obtain reliable adult annual survival estimates.

Author

Kaschube, Danielle R., Saracco, James F., Ray, Chris, Godwin, Christine M., Foster, Kenneth R., and Pyle, Peter

Subjects

WOOD warblers, NUMBERS of species, CHANNEL estimation, SURVIVAL analysis (Biometry), BIRD breeding, ADULTS, SAMPLE size (Statistics), BIRD populations, HABITATS

Abstract

Copyright of Journal of Field Ornithology is the property of Resilience Alliance and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2022

170. Breeding dispersal movements of Dupont's Lark Chersophilus duponti in fragmented landscape.

Author

PÉREZ-GRANADOS, CRISTIAN, SÁEZ-GÓMEZ, PEDRO, and LÓPEZ-IBORRA, GERMÁN M.

Abstract

Summary: Understanding patterns of dispersal behaviour of threatened species is important in conservation biology and population ecology, especially in fragmented landscapes. Dupont's Lark Chersophilusduponti is a threatened passerine whose European population has declined by around 40% in the last decade. To study natal and breeding dispersal of the species, we used a long-term mark-recapture dataset (2011–2019) and analysed the records of 32 males (39 dispersal movements) and five females (five dispersal movements) captured during the breeding season at Rincón de Ademuz (Valencia, eastern Spain). Adult birds had a median breeding dispersal of 154 m (Q25-Q75 = 70.0–300.3). Among these captures, two adult males dispersed to a new patch of habitat separated by more than 5,800 m. Only one out of 26 nestlings ringed was trapped as an adult bird, which occurred at a site different from the natal territory (4,500 m). Our results show a low breeding dispersal for the species and are, in essence, in agreement with previous studies carried out in the Ebro Valley metapopulation, one of the core areas for the species in Europe. Nonetheless, unlike in the Ebro Valley, we detected movements of adult birds between habitat patches. The low recovery rate of young birds suggests that they left their natal sites and moved outside the study area or that their survival rate was very low. Future studies focused on the post-fledging survival rate and natal dispersal movements are essential to determine effective conservation measures for the species. Habitat management actions in occupied and potential sites should be carried out close to the areas inhabited by the species to increase the success rate of the interventions and the effective dispersal and therefore population connectivity. [ABSTRACT FROM AUTHOR]

Published

2022

171. Non-invasive genetic sampling is one of our most powerful and ethical tools for threatened species population monitoring: a reply to Lavery et al.

Author

Banks, Sam C. and Piggott, Maxine P.

Subjects

ENDANGERED species, WILDLIFE conservation, DNA analysis, WALLABIES

Abstract

Noninvasive genetic sampling (genetic tagging) of individuals is one of the most powerful and ethical tools for threatened species population monitoring. A recent review of the threats to Australia's rock-wallabies (Petrogale spp.) and the methods for their monitoring stated that noninvasive genetic sampling (faecal DNA analysis) is not viable for estimating population size and trends for species in this genus. We feel that it is important to respond as such statements have the potential to stifle the development and application of an important tool for threatened species monitoring and lead to lost opportunities for collection of high-quality data to inform conservation of these species. We take the opportunity to describe the breadth of successful application of noninvasive genetic sampling for monitoring rock wallabies and other mammal taxa, the research and development requirements for successful implementation of noninvasive DNA-based population monitoring and thoughts on why this powerful approach has not been implemented to its full potential in many jurisdictions. We need to be careful not to dismiss one of the most powerful and ethical threatened species monitoring tools due to lack of familiarity with the requirements for its implementation. [ABSTRACT FROM AUTHOR]

Published

2022

172. Episodes of high recruitment buffer against climate‐driven mass mortality events in a North Pacific seabird population.

Author

Johns, Michael E., Warzybok, Pete, Jahncke, Jaime, Doak, Pat, Lindberg, Mark, and Breed, Greg A.

Subjects

*POPULATION dynamics, *DEMOGRAPHIC change, *TIME series analysis, *CORAL bleaching, *NEST predation, *LONGITUDINAL method, *MORTALITY

Abstract

Longitudinal studies of marked animals provide an opportunity to assess the relative contributions of survival and reproductive output to population dynamics and change.Cassin's auklets are a long‐lived seabird that maximizes annual reproductive effort in resource‐rich years through a behaviour called double brooding, the initiation of a second breeding attempt following the success of the first during the same season. Our objective was to explore whether double brooding influenced population change by contributing a greater number of future recruits.We fit temporal symmetry models to 32 years of mark–recapture data of Cassin's auklets to infer the mechanisms underlying the observed variability in per capita recruitment rates.We found that periodic peaks in recruitment were explained by an increase in available nest sites, the proportion of the population double brooding 4 years prior, and spring upwelling conditions. Estimates of population change suggests a relatively stable population throughout the time series, attributable to a 'floating' demographic class of sexually mature individuals excluded from breeding by competition which quickly fill vacant sites following periods of low adult survival.Our results highlight the importance of recruitment in maintaining the population of a long‐lived seabird periodically impacted by adverse environmental conditions. [ABSTRACT FROM AUTHOR]

Published

2022

173. Inter-specific variability in demographic processes affects abundance-occupancy relationships.

Author

Şen, Bilgecan and Akçakaya, H. Reşit

Subjects

*VITAL statistics, *SURVIVAL rate, *POPULATION density, *SURVIVAL analysis (Biometry)

Abstract

Species with large local abundances tend to occupy more sites. One of the mechanisms proposed to explain this widely reported inter-specific relationship is a cross-scale hypothesis based on dynamics at the population level. Called the vital rates mechanism; it uses within-population demographic processes of population growth and density dependence to predict when inter-specific abundance–occupancy relationships can arise and when these relationships can weaken and even turn negative. Even though the vital rates mechanism is mathematically simple, its predictions has never been tested directly because of the difficulty estimating the demographic parameters involved. Here, using a recently introduced mark-recapture analysis method, we show that there is no relationship between abundance and occupancy among 17 bird species. Our results are consistent with the predictions of the vital rate mechanism regarding the demographic processes that are expected to weaken this relationship. Specifically, we find that intrinsic growth rate and local abundance are not correlated, and density dependence strength shows considerable variation across species. Variability in density dependence strength is related to variability in species-level local average abundance and intrinsic growth rate; species with lower growth rate have higher abundance and are strongly regulated by density dependent processes, especially acting on survival rates. More generally, our findings support a cross-scale mechanism of macroecological abundance–occupancy relationship emerging from density-dependent dynamics at the population level. [ABSTRACT FROM AUTHOR]

Published

2022

174. Photographic Identification of Individual Domestic Cats: Comparing the Accuracy of Life Science University Students Versus Cat Advocate Citizen Science Volunteers.

Author

AELURO, SABRINA and VAN OAST, JON

Subjects

*CITIZEN science, *LIFE science education, *VOLUNTEERS, *ELECTRONIC data processing, *URBAN ecology

Abstract

There have been no long-term field studies of the potential effect of spay/neuter programs on free-roaming domestic cat population sizes. To address that gap via citizen science, we are developing a novel approach to photographic mark-recapture population research that engages volunteers as both smartphone-wielding data collectors and as online data processors in building capture histories from submitted photos. Here, we present a validation study testing the accuracy of cat advocate volunteers at matching smartphone photos of cats, and we compare their success to a reference group of life science university students. We also examine feline photographic identification from two additional perspectives: what makes a volunteer better at cat identification, and what makes a cat photo more identifiable? 151 cat advocates and 17 students completed 37,800 pairwise photo comparisons using our online platform. Cat advocates' matching attempts (n = 34,080) were correct 98.1% of the time compared with students' 97.5% (n = 3,720). Volunteers who reported a pet cat increased their accuracy. Volunteers who held less than a bachelor's degree, or those who volunteered with cats previously, had reduced accuracy. If a cat was a color other than black, its ability to be identified increased. We demonstrated that our citizen science volunteer sample was not only adequate at identifying individual cats in smartphone photos, but performed better than our sample of life science students--a labor pool commonly trusted to organize data from camera trap research. While photographs are the data foundation of many studies of free-roaming cats, we are the first to analyze by-eye visual identification in this species. [ABSTRACT FROM AUTHOR]

Published

2022

175. Does tagging transparent fish increase predation risk? A laboratory study with glass eel (Anguilla anguilla) and sea bass (Dicentrarchus labrax).

Author

Griffioen, Arie Benjamin, Janssen, Woody, Menke, Timon, Wilkes, Tony, and Winter, Hendrik Volken

Subjects

*GLASS eels, *SEA basses, *ANGUILLA anguilla, *EUROPEAN seabass, *PREDATION, *GASTROINTESTINAL contents

Abstract

Barriers in the estuaries of the rivers prevent the immigration of glass eels (Anguilla anguilla) arriving on the European coast every spring. This leads to an unnatural accumulation of migrating glass eels below the barriers, and this may lead to additional losses in glass eels by piscivorous fish. The proportion of predation losses can be estimated using mark‐recapture techniques and abundance estimates in combination with stomach content analysis of piscivorous fish. Nonetheless, whether tagging transparent glass eels increases predation risk and what the digestion rate of glass eel is in piscivorous fish are unknown. This study aimed to determine whether there is an increased predation risk for tagged glass eel; it also studies glass eel digestion status in piscivorous fish after appointed time frames. A laboratory experiment with 48 trials was conducted. Tagged (visible implanted elastomer, VIE) and untagged glass eels were exposed to small (19.1–24.4 cm) and large (31.9–43.5 cm) sea bass (Dicentrarchus labrax) during a 2 h trial. In 48% of the trials, successful predation was present and 13% showed clear predation attempts in which bass did not capture glass eels. No significant difference was found in predation rate between tagged and untagged glass eels and between red and blue tagged glass eels. Large sea bass predated more, but all sizes consumed glass eel under laboratory conditions. Stomach content analysis showed intact glass eel bodies 4–6 h after ending the 2 h trial and parts of glass eel bodies up to 16–18 h. This study showed that tagging does not increase predation in mark‐recapture studies using VIE‐tags in transparent glass eel. It also shows that the proportion of predation in relation to local glass eel abundance can be estimated if stomach content analysis is conducted within 4–6 h after predation. [ABSTRACT FROM AUTHOR]

Published

2022

176. Exceptionally high apparent adult survival in three tropical species of plovers in Madagascar.

Author

Jones, William, Eberhart‐Hertel, Luke J., Freckleton, Robert P., Hoffman, Joseph I., Krüger, Oliver, Sandercock, Brett K., Vincze, Orsolya, Zefania, Sama, and Székely, Tamás

Subjects

*PREDATION, *BIRD nests, *LIFE history theory, *PLOVERS, *CONSERVATION biology, *NEST predation, *HABITAT destruction

Abstract

Adult survival is a key component of population dynamics, and understanding variation in and the drivers of adult survival rates and longevity is critical for ecological and evolutionary studies, as well as for conservation biology and practice. Tropical species of landbirds are often selected to have higher adult survival due to high nest predation rates, but it is unclear if the same patterns occur in other avian lineages with different life history strategies. Here, we investigate adult survival of three sympatrically breeding species of shorebirds in south‐west Madagascar: the endemic and endangered Madagascar plover Charadrius thoracicus and two more widely distributed African species: the white‐fronted plover C. marginatus and the Kittlitz's plover C. pecuarius. Using mark–recapture data from 1843 individuals breeding at an intensely monitored saltmarsh over a 13‐year period, we estimated annual rates of apparent survival (φ) corrected for encounter probability. Adult apparent survival rates were high for all three species (mean ± SE): Madagascar (φ = 0.899 ± 0.010) and white‐fronted plovers (φ = 0.923 ± 0.008). Kittlitz's plovers showed a difference between the first (φ1 = 0.719 ± 0.026) and subsequent transitions (φ2+ = 0.892 ± 0.014), suggesting that transient breeders are common in this species. For birds first captured as adults, these survival estimates translate to life expectancies of 9.72 (±1.11) years in Kittlitz's plovers, 9.36 (±0.98) years in Madagascar plovers and 12.48 (±1.32) in white‐fronted plovers. We hypothesise that a long lifespan could be an adaptation arising from the unique climatic pressures on the island of Madagascar that would otherwise lead to reduced fitness. However, long lifespans may not sufficiently compensate for a reduction in breeding opportunities due to possible climatic disruption in the future. Consequently, at least two of these plover species seem vulnerable to ongoing habitat destruction and changing climate cycles. [ABSTRACT FROM AUTHOR]

Published

2022

177. Season‐specific survival rates and densities of coastal cutthroat trout across stream sizes in southwestern British Columbia.

Author

Sheldon, Kim A. and Richardson, John S.

Subjects

*SURVIVAL rate, *TROUT, *SUMMER, *AQUATIC habitats, *WATER depth, *GEOMORPHOLOGY

Abstract

Variation in seasonal survival rates, densities and growth rates of coastal cutthroat trout (Oncorhynchus clarkii clarkii) were assessed across a size gradient of small, forested streams in the Pacific Northwest. We used a robust, mark‐recapture study, stratified seasonally to estimate monthly survival rates of trout in coastal British Columbia (not including young‐of‐the‐year). Survival estimates showed that the summer season had the lowest monthly survival rates (0.907) across all streams in our study (0.927 remainder of year). Within the size range of the seven small streams studied, low‐flow habitat availability (defined by residual pool depth in summer) was the best predictor of mean monthly survival rates, supporting the hypothesis that trout survival increases with the quantity of aquatic habitat, particularly depths of residual pools. In addition, there was an asymptotic relation between water depth and survival rates, where beyond ~20 cm of residual pool depth, greater depth did not confer greater rates of trout survival. Growth rates in all but the largest stream were also lowest during summer. While densities tended to be higher in streams with greater residual depth, this was not significant. Body mass in a given season was a good predictor of survival to the next sampling period. The distribution and success of resident cutthroat trout populations in small streams appear to be constrained by summer low‐flow periods and specific geomorphologies that support deeper pools. [ABSTRACT FROM AUTHOR]

Published

2022

178. A decade of photo‐identification reveals contrasting abundance and trends of Type B killer whales in the coastal waters of the Antarctic Peninsula.

Author

Fearnbach, Holly, Durban, John W., Ellifrit, David K., Paredes, Alyssa, Hickmott, Leigh S., and Pitman, Robert L.

Subjects

KILLER whale, MARINE organisms, PENINSULAS, FOOD chains, COASTS, BOTTLENOSE dolphin

Abstract

The Antarctic Peninsula (AP) is rapidly warming and empirical data on abundance trends of marine organisms are required to understand the impact of these physical changes, and interacting anthropogenic impacts, on the ecosystem. Recent estimates inferred increasing abundance of Type A killer whales at the top of this food chain, and here we provide new data on the abundance of Type B1 and B2 killer whales using photographic mark‐recaptures collected during austral summers from 2008/2009 to 2017/2018. Both ecotypes were regularly photographed around the AP coastline, particularly off the west side, and individuals of both showed site fidelity across years. B1s had a higher re‐identification rate (58% photographed in multiple years, range: 1–7 years) compared to B2s (31%, 1–4 years). We fit mark‐recapture models that allowed temporary emigration beyond the study area, to effectively monitor the size of wide‐ranging populations and documented contrasting trends for B1s and B2s. A smaller population size (~102) of B1s was estimated to use the area, with a declining trend in abundance (−4.7% per year) and reduced apparent survival in recent years. In contrast, a much larger population size (~740) of B2s was estimated to be generally stable in abundance and apparent survival over the past decade. [ABSTRACT FROM AUTHOR]

Published

2022

179. Long-term mark-recapture and growth data for large-sized migratory brown trout (Salmo trutta) from Lake Mjøsa, Norway

Author

S. Jannicke Moe, Chloé Nater, Atle Rustadbakken, L. Asbjørn Vøllestad, Espen Lund, Tore Qvenild, Ola Hegge, and Per Aass

Subjects

mark-recapture, sclerochronology, individual-based, Biology (General), QH301-705.5

Published

2020

180. Importance of local weather and environmental gradients on demography of a broadly distributed temperate frog

Author

David S. Pilliod, Rebecca M. McCaffery, Robert S. Arkle, Rick D. Scherer, Jacqueline B. Cupples, Lisa A. Eby, Blake R. Hossack, Hallie Lingo, Kristin N. Lohr, Bryce A. Maxell, Megan J. McGuire, Chad Mellison, Marisa K. Meyer, James C. Munger, Teri Slatauski, and Rachel Van Horne

Subjects

Adaptation, Amphibian, Anuran, Climate change, Mark-recapture, Rana luteiventris, Ecology, QH540-549.5

Abstract

Amphibian populations are sensitive to environmental temperatures and moisture, which vary with local weather conditions and may reach new norms and extremes as contemporary climate change progresses. Using long-term (11–16 years) mark-recapture data from 10 populations of the Columbia spotted frog (Rana luteiventris) from across its U.S. range, we addressed hypotheses about how demographic relationships to weather depend upon a population’s position along climate gradients. We estimated the effect of seasonal weather on annual survival probability and recruitment rates both within populations and across the species’ range from subalpine forests to semi-arid deserts. We calculated population-specific weather variables that captured seasonal temperature and precipitation between summer sampling events, both for periods when frogs were active (spring to fall) and inactive (winter). Across all populations, we marked 15,885 adult frogs, with 33% of frogs recaptured at least once. Population demography varied with seasonal weather across the species’ range. Annual adult survival probability and recruitment rates of each population were influenced by a unique set of seasonal temperature and precipitation variables, particularly in winter and spring. Hence, adult survival varied with local conditions but, when analyzed across all populations, was predictable along a species-environment response curve associated with the timing of snowmelt and spring moisture. In contrast, recruitment rates for each population peaked at different values along an environmental gradient associated with the amount of snow during winter, and fall temperature and moisture levels, suggesting that recruitment may be responding to local conditions independently within each population. These findings highlight that sampling across the environmental (i.e., elevational and meteorological) gradients within a species range is necessary to predict species-level responses to regional climate change. This study also provides evidence of the importance of winter conditions on the demography of temperate amphibians, conditions that are already responding to climate change. Finally, this study further emphasizes that local context and spatiotemporal scale of inquiry remain paramount to understanding and potentially managing for climate effects on populations of amphibian species with broad geographic ranges.

Published

2022

181. Horizontal and Vertical Migration of Anglerfish Lophius piscatorius in Relation to Hydrography in Faroese Waters

Author

Lise Helen Ofstad, Hjálmar Hátún, Torstein Pedersen, Petur Steingrund, and Bjarni Mikkelsen

Subjects

anglerfish, data storage tag, hydrography, Faroe Islands, Lophius piscatorius, mark-recapture, Science, General. Including nature conservation, geographical distribution, QH1-199.5

Abstract

Adult anglerfish conduct annual migrations between spawning areas and feeding areas; for Faroese waters this migration has so far not been described. Therefore, anglerfish migration and distribution in Faroese waters was investigated by mark-recapture studies, including data storage tags, as well as data from scientific trawl surveys, commercial trawlers and gillnetters. The fish distribution was compared to hydrographical conditions such as sea surface- and bottom temperature. A clear seasonal offshore-onshore migration was observed. Anglerfish occupied shallower waters (

Published

2022

182. Photographic Identification of Individual Domestic Cats: Comparing the Accuracy of Life Science University Students Versus Cat Advocate Citizen Science Volunteers

Author

Sabrina Aeluro and Jon Van Oast

Subjects

photo identification, citizen science, validation study, free-roaming cats, urban ecology, mark-recapture, Science

Abstract

There have been no long-term field studies of the potential effect of spay/neuter programs on free-roaming domestic cat population sizes. To address that gap via citizen science, we are developing a novel approach to photographic mark-recapture population research that engages volunteers as both smartphone-wielding data collectors and as online data processors in building capture histories from submitted photos. Here, we present a validation study testing the accuracy of cat advocate volunteers at matching smartphone photos of cats, and we compare their success to a reference group of life science university students. We also examine feline photographic identification from two additional perspectives: what makes a volunteer better at cat identification, and what makes a cat photo more identifiable? 151 cat advocates and 17 students completed 37,800 pairwise photo comparisons using our online platform. Cat advocates’ matching attempts (n = 34,080) were correct 98.1% of the time compared with students’ 97.5% (n = 3,720). Volunteers who reported a pet cat increased their accuracy. Volunteers who held less than a bachelor’s degree, or those who volunteered with cats previously, had reduced accuracy. If a cat was a color other than black, its ability to be identified increased. We demonstrated that our citizen science volunteer sample was not only adequate at identifying individual cats in smartphone photos, but performed better than our sample of life science students—a labor pool commonly trusted to organize data from camera trap research. While photographs are the data foundation of many studies of free-roaming cats, we are the first to analyze by-eye visual identification in this species.

Published

2022

183. Exceptionally high apparent adult survival in three tropical species of plovers in Madagascar

Author

William Jones, Luke J. Eberhart‐Hertel, Robert P. Freckleton, Joseph I. Hoffman, Oliver Krüger, Brett K. Sandercock, Orsolya Vincze, Sama Zefania, and Tamás Székely

Subjects

demography, life history, lifespan, mark–recapture, shorebird, Biology (General), QH301-705.5, General. Including nature conservation, geographical distribution, QH1-199.5

Abstract

Adult survival is a key component of population dynamics, and understanding variation in and the drivers of adult survival rates and longevity is critical for ecological and evolutionary studies, as well as for conservation biology and practice. Tropical species of landbirds are often selected to have higher adult survival due to high nest predation rates, but it is unclear if the same patterns occur in other avian lineages with different life history strategies. Here, we investigate adult survival of three sympatrically breeding species of shorebirds in south‐west Madagascar: the endemic and endangered Madagascar plover Charadrius thoracicus and two more widely distributed African species: the white‐fronted plover C. marginatus and the Kittlitz's plover C. pecuarius. Using mark–recapture data from 1843 individuals breeding at an intensely monitored saltmarsh over a 13‐year period, we estimated annual rates of apparent survival (φ) corrected for encounter probability. Adult apparent survival rates were high for all three species (mean ± SE): Madagascar (φ = 0.899 ± 0.010) and white‐fronted plovers (φ = 0.923 ± 0.008). Kittlitz's plovers showed a difference between the first (φ1 = 0.719 ± 0.026) and subsequent transitions (φ2+ = 0.892 ± 0.014), suggesting that transient breeders are common in this species. For birds first captured as adults, these survival estimates translate to life expectancies of 9.72 (±1.11) years in Kittlitz's plovers, 9.36 (±0.98) years in Madagascar plovers and 12.48 (±1.32) in white‐fronted plovers. We hypothesise that a long lifespan could be an adaptation arising from the unique climatic pressures on the island of Madagascar that would otherwise lead to reduced fitness. However, long lifespans may not sufficiently compensate for a reduction in breeding opportunities due to possible climatic disruption in the future. Consequently, at least two of these plover species seem vulnerable to ongoing habitat destruction and changing climate cycles.

Published

2022

184. Natal Philopatry in a Long-Lived Species: The Return of Reproductive River Turtles Marked and Released as Hatchlings

Author

Roy D. Nagle, Travis J. Russell, Christopher J. Grant, Melissa Innerst, and Seth J. Strawser

Subjects

hatchling, Graptemys, mark-recapture, natal philopatry, nesting, reproduction, Biology (General), QH301-705.5

Abstract

Natal philopatry—the return of an animal to its place of birth to reproduce—can shape population genetics and link essential habitats across generations, yet examples from long-term mark-recapture studies are rare. In this study, we observed 136 nests of Northern Map Turtles at Mount Union, Pennsylvania, between 2000 and 2008 and then individually marked and released 691 hatchling turtles into the Juniata River. During a recent six-year period (from 2017 to 2022), 46 of the hatchling-marked turtles (6.7%) returned to Mount Union as adult females to nest. The ages of these turtles ranged from 11–22 years at first recapture, and their mean age was 17 years. Forty-one hatchling-marked females came from observed nests with known mothers, and remarkably, just four (of 52) mothers produced over half of the returning females. The minimum ages of the oldest female turtles were estimated at 39 years, with reproductive lifetimes of at least 23 years. Our results indicate that a few long-lived Super Moms have made extraordinary contributions to hatchling recruitment and population viability of Northern Map Turtles of the Juniata River. The timing of release also had a significant influence on the probability of a turtle returning, with hatchlings released in May returning at a higher rate than those released earlier in the spring. In addition, morphological characteristics of hatchling-marked females suggest that factors causing shell shape abnormalities in adult turtles have not abated over the past two decades as previously theorized and likely involve exposure of juveniles to contaminants in the Juniata River rather than any maternal influence.

Published

2023

185. Population ecology of bottlenose dolphins (Tursiops truncatus) off the east coast of Scotland

Author

Arso Civil, Mònica and Hammond, Philip S.

Subjects

599.53, Bottlenose dolphin, Population parameters, Mark-recapture, Habitat modelling, Conservation

Abstract

The population of bottlenose dolphins off the east coast of Scotland has been studied since the late 1980s, initially focused on the inner Moray Firth, where a Special Area of Conservation (SAC) was designated under the EU Habitats Directive. The population has since expanded its distributional range and currently ranges from the Moray Firth to the Firth of Forth. The main aims of this thesis were: (1) to estimate population parameters for this population using a 25 year individual recognition dataset, and (2) to increase knowledge of the distribution and abundance of dolphins in areas outside the SAC, especially to investigate areas of high use in St Andrews Bay. Apparent survival rate for adults and sub–adult dolphins was estimated at 0.946 (SE=0.005) accounting for temporary emigration caused by the population's range expansion. Sex-specific survival was estimated for males (0.951, SE=0.013) and females (0.956, SE=0.011) using multistate models to minimize bias caused by individuals of unknown sex. Using a newly developed approach, fecundity rate was estimated at 0.222 (95% CI=0.218-0.253) from an expected mean inter-birth interval of 4.49 yrs (95% CI=3.94-4.93). Total population size was estimated as ~200 individuals, after accounting for temporary emigration and for heterogeneity in capture probabilities. In St Andrews Bay, an area used regularly in summer by approximately half the estimated population, habitat use modelling identified the entrance to the Firth of Tay and waters around Montrose as high use areas for dolphins, whose presence was influenced by tidal current speed and direction. The results suggest that the conservation and management plan for this small and isolated population of bottlenose dolphins should be reviewed to adapt it to current knowledge, especially regarding the uncertainty around the potential impacts of offshore renewable energy developments off the east coast of Scotland.

Published

2015

186. Moderate evidence for the sex-dependent effect of poisoning on adult survival in a long-lived raptor species.

Author

Zsinka B, Pásztory-Kovács S, Kövér S, Vili N, and Horváth M

Abstract

Survival rate is usually the greatest contributor to population growth in long-lived species, and its accurate estimation along with the evaluation of the factors influencing it is therefore essential for effective conservation. Here, we studied the survival of breeding eastern imperial eagles Aquila heliaca in Hungary between 2011 and 2022 and investigated the effect of poisoning, the leading known anthropogenic cause of mortality. We used the Cormack-Jolly-Seber mark-recapture model to estimate annual apparent survival and encounter probabilities based on the capture histories of 208 males and 411 females. We obtained encounter data from the DNA profiles of shed feathers collected at the nest sites, which we also supplemented with presences inferred from parentage analysis. The most supported model estimated a constant 91.6% annual survival over the study period, but models including the effect of sex and poisoning rate on survival had similar support. Sex difference in survival was less than 1% on average, but the survival of males decreased more with poisoning rate than the survival of females. However, due to smaller encounter probabilities, the estimates for males were less precise compared to females. Males may be more at risk from poisoning than females not only due to their more active foraging behaviour during incubation and chick-rearing but also due to their smaller body size. Apart from providing direct practical information for the conservation management of imperial eagles, our results also highlight the importance of long-term studies for estimating population parameters of birds of prey., Competing Interests: The authors declare that they have no conflict of interest., (© 2024 The Author(s). Ecology and Evolution published by John Wiley & Sons Ltd.)

Published

2024

187. One fish, two fish, three fish, more: novel resighting method produces precise and cost-effective estimates of abundance.

Author

Dennis JD, Meyer L, Dudgeon CL, and Huveneers C

Abstract

Estimates of abundance are essential to manage and conserve marine species. Numerous methods are available to determine population size, but the suitability of methods for schooling fishes and the associated precision can vary depending on the species and system. Here, we developed and compared three mark-recapture/resight methods to assess the most robust method to estimate the abundance of silver trevally (Pseudocaranx georgianus). While the recapture rate was similar across the methods, the swim pass method (resighting) recorded the largest number of individuals (mean ± standard error 211 ± 14.9) and had the lowest coefficient of variation (CV; 4.5%-12%) compared to 360-video (resighting, 45 ± 2.1 individuals surveyed, 14.8%-22.2% CV) and large-scale capture methods (recapture, 30 ± 3.8 individuals surveyed, 17.3%-26.5% CV). The inclusion of individual identification into the abundance estimator models for large-scale capture did not change the abundance estimates and showed similar resolution between the models (CV 18.2%-26.7%). We showed that the swim pass method is logistically easy to implement and generates precise estimates of silver trevally abundance. This new method provides a low-cost, time-efficient resighting method that can be adapted to suit similar aggregating pelagic species interacting with wildlife tourism operations, enabling researchers to rapidly estimate the abundance of species that have been previously difficult to count., (© 2024 The Author(s). Journal of Fish Biology published by John Wiley & Sons Ltd on behalf of Fisheries Society of the British Isles.)

Published

2024

188. Increased eye size is favoured in Trinidadian killifish experimentally transplanted into low light, high competition environments.

Author

Tran SM, Howell KJ, and Walsh MR

Subjects

Animals, Competitive Behavior, Light, Organ Size, Predatory Behavior, Selection, Genetic, Eye anatomy & histology, Killifishes physiology

Abstract

Intraspecific variation in vertebrate eye size is well known. Ecological factors such as light availability are often correlated with shifts in relative eye size. However, experimental tests of selection on eye size are lacking. Trinidadian killifish (Anablepsoides hartii) are found in sites that differ in predation intensity. Sites that lack predators are characterized by lower light, high killifish densities, low resource availability, and intense competition for food. We previously found that killifish in sites that lack predators have evolved a larger "relative" eye size (eye size corrected for body size) than fish from sites with predators. Here, we used transplant experiments to test how selection operates on eye size when fish that are adapted to sites with predators are translocated into sites where predators are absent. We observed a significant "population × relative eye size" interaction; the relationship between relative eye size and a proxy for fitness (rates of individual growth) was positive in the transplanted fish. The trend was the opposite for resident fish. Such results provide experimental support that larger eyes enhance fitness and are favoured in environments characterized by low light and high competition., (© The Author(s) 2024. Published by Oxford University Press on behalf of the European Society of Evolutionary Biology. All rights reserved. For commercial re-use, please contact reprints@oup.com for reprints and translation rights for reprints. All other permissions can be obtained through our RightsLink service via the Permissions link on the article page on our site—for further information please contact journals.permissions@oup.com.)

Published

2024

189. Density of a cryptic Australian small mammal: The threatened Julia Creek dunnart ( Sminthopsis douglasi ).

Author

Bakker AH, Patterson CR, Mifsud G, Reside AE, Fuller S, and Baker AM

Abstract

Globally, hundreds of mammal species face the threat of extinction in the coming decades, and in many cases, their ecology remains poorly understood. Fundamental ecological knowledge is crucial for effective conservation management of these species, but it is particularly lacking for small, cryptic mammals. The Julia Creek dunnart ( Sminthopsis douglasi ), a threatened, cryptic carnivorous marsupial that occurs in scattered populations in the central west of Queensland, Australia, was once so poorly studied that it was believed extinct. Sporadic research since its rediscovery in the early 1990s has revealed that S. douglasi is distributed across land at risk from many threats. Fundamental knowledge of S. douglasi population density is urgently required to inform conservation management at key sites, yet the species has historically proven hard to detect. Indeed, the status of the largest known population of S. douglasi , in Bladensburg National Park, is unknown. Here, we conducted a population study on S. douglasi at two sites within Bladensburg National Park via live mark-recapture surveys during 2022 and 2023. From likelihood-based spatially explicit capture-recapture (SECR) modelling we provide the first estimates of density and population size for S. douglasi . Live trapping resulted in captures of 49 individual S. douglasi (with 83 captures total, including recaptures). We estimated S. douglasi to occur at a density of 0.38 individuals ha -1 (0.25-0.58) at one site and 0.16 individuals ha -1 (0.09-0.27) at another site, with an estimated mean population size in suitable habitat at Bladensburg National Park of 1211 individuals (776-1646). Our S. douglasi density estimates were similar to that reported for other threatened small mammals in Australia. We also found evidence of extreme S. douglasi population fluctuations over time at Bladensburg National Park, which is of concern for its future conservation. Our study has provided the first estimate of density for S. douglasi , a threatened dasyurid species from the Mitchell Grass Downs of central western Queensland, Australia. Our research provides crucial population data to assist the management of this poorly studied species. We demonstrate a method that can be applied to species with low detection probability to ultimately help address the mammal extinction crisis faced by Australia and the rest of the world., Competing Interests: The authors declare that there are no competing interests., (© 2024 The Author(s). Ecology and Evolution published by John Wiley & Sons Ltd.)

Published

2024

190. A new longevity record for a wild European rabbit (Oryctolagus cuniculus) from South Australia.

Author

Peacock, David E., Sinclair, Ron G., and Cairns, Stuart

Subjects

EUROPEAN rabbit, RABBIT diseases, LONGEVITY, BIOLOGICAL pest control agents, RABBITS

Abstract

A population of wild European rabbits (Oryctolagus cuniculus) was regularly monitored from November 1996 to April 2022, using mark--recapture as part of a longitudinal epidemiological study into two Australian rabbit biocontrol agents, rabbit haemorrhagic disease (RHD) and myxomatosis. A female rabbit, first captured as a subadult on 26 October 2009, was recaptured 16 times before its final capture on 19 February 2019. The longevity of this rabbit, from its calculated birth date to the date of its last capture, was 9.5 years. This is a record lifespan for a wild European rabbit acknowledging that such longevity might be specific to our site in temperate South Australia. It exceeds our previous reported record from the same site by 2 years. [ABSTRACT FROM AUTHOR]

Published

2024

191. Climate Change and the Spatiotemporal Variation in Survival of a Long-Distance Migrant (White Stork, Ciconia ciconia) acrossWestern Europe.

Author

Martín, Beatriz, Onrubia, Alejandro, and Ferrer, Miguel

Subjects

*CLIMATE change, *WHITE stork, *WINTERING of birds, *GLOBAL warming, *MIGRATORY birds

Abstract

The spatial variation in the strength of climate change may lead to different impacts on migratory birds using different breeding areas across a region. We used a long-term data series of White Stork ring recoveries to study the temporal and spatial variation of annual survival rates of White Stork across western Europe between 1960 and 2009 in relation to climatic and environmental conditions at their breeding and wintering grounds. White Stork survival was estimated from the Cormack–Jolly–Seber (CJS) model using a cohort-based analysis. Our results support that climate change has caused a gradual decline in the survival performance of western European White Storks during the study period. Both the shape and the strength of the relationship between climate warming and survival differ among different life-stages of the individual development, with juvenile White Storks more strongly affected. The decline in survival is particularly marked for those storks breeding in southern Europe. The large-scale effect of climatic conditions identified in this widespread long-distance migrant species represents a highly likely scenario for other migratory birds in Europe [ABSTRACT FROM AUTHOR]

Published

2021

192. Population Size and Structure of the Ornate Diamondback Terrapin (Malaclemys terrapin macrospilota) on Small Gulf Coast Islands in Florida.

Author

Suarez, Eric, Thomas, Travis M., Turner, William M., Gandy, Ryan L., Enge, Kevin M., and Johnson, Steve A.

Subjects

*TURTLES, *BRACKISH waters, *ISLANDS, *COASTS, *SUBSPECIES

Abstract

Management decisions for species are often based on estimates of abundance, which can be difficult to obtain for species that are a challenge to survey, as are some reptiles. Information on abundance and population status are lacking for the diamondback terrapin (Malaclemys terrapin), a coastal species that inhabits brackish waters and plays an important trophic role in the saltmarsh ecosystem. Population declines are suspected throughout the species' range, and its population status is unknown in Florida. Of the 5 subspecies that inhabit Florida's coastline, the most understudied subspecies may be the ornate diamondback terrapin (M. t. macrospilota). We conducted a capture–mark–recapture study of M. t. macrospilota during the summer of 2013 on 3 adjacent coastal islands in the eastern panhandle of Florida that provided information on population size and demography. We captured 334 individuals; modeling estimated a population size of 1282 (867–1905 95% CI) and a density of 150 terrapins/ha. Population size decreased throughout the study, suggesting that this population is an aggregation that seasonally emigrates from the islands. This emigration trend was more evident for females. Males outnumbered females 4:1, and females were larger than males. Our study is the first to report on M. t. macrospilota populations in the Florida panhandle. We recommend collaborative, long-term population monitoring at our sites to estimate population trends that will be crucial for managing this subspecies. [ABSTRACT FROM AUTHOR]

Published

2021

193. Semi-automated photo-identification of Bahamian Racers (Cubophis vudii vudii).

Author

HOEFER, SEBASTIAN, ROTGER, ANDREU, MILLS, SOPHIE, and ROBINSON, NATHAN J.

Subjects

*CAMERA phones, *SMARTPHONES, *SNAKES, *COLUBRIDAE, *SNAKE venom

Abstract

Photo-identification is a non-invasive option for mark-recapture. Here, we tested the effectiveness of APHIS, a semi-automated photo-identification software, to distinguish between individual Bahamian Racers (Cubophis vudii vudii) on the island of Eleuthera, The Bahamas. Over 10 months, we photographed 50 Bahamian Racers. We first identified individuals by manually comparing colouration and scale patterns in the pileus and labial regions. Next, we used APHIS to identify recaptured individuals after manually identifying the locations of intersections of the scales in the pileus and labial regions. In addition, we assessed whether images taken with a hand-held camera or by a smart phone affected the accuracy of APHIS. All recaptured snakes were correctly identified using APHIS from both camera or phone images as validated by our manually derived results. We conclude that APHIS is an effective tool for photo-identification in snakes. [ABSTRACT FROM AUTHOR]

Published

2021

194. Quantifying Great Lakes sea lamprey populations using an index of adults.

Author

Adams, Jean V., Barber, Jessica M., Bravener, Gale A., and Lewandoski, Sean A.

Abstract

Effective control of aquatic invasive species requires knowledge of the population throughout the infested area. Lake-wide assessments of invasive sea lampreys (Petromyzon marinus) are used to assess their status in the Laurentian Great Lakes, informing fisheries managers and decision makers in the sea lamprey control program. Initially these assessments focused on an estimate of absolute abundance, but later switched to an estimate of relative abundance as an index. In this paper, we describe the recently developed index of sea lamprey abundance and the reasons for its use. Rather than trying to estimate spawning run sizes of all Great Lakes tributaries, the index instead estimates run sizes of a small subset of index streams. Streams chosen for the index had large spawning runs and a history of trapping operations that consistently yielded mark-recapture estimates. This change enabled the sea lamprey control program to abandon a previously used regression model that predicted run size on streams with no sea lamprey traps. Further research is needed to determine how strongly correlated the index is with actual patterns in the lake-wide population of adult sea lampreys. [ABSTRACT FROM AUTHOR]

Published

2021

195. Lake sturgeon (Acipenser fulvescens) annual adult survival estimated from acoustic telemetry.

Author

Colborne, S.F., Hayden, T.A., Holbrook, C.M., Hondorp, D.W., and Krueger, C.C.

Abstract

Survival of adult fishes is critical to the conservation and management of wild populations, particularly for long-lived, slow to reproduce species. Most sturgeon species are of conservation concern, but their long lifespans and large ranges have made estimation of adult survival rates challenging. In this study, acoustic telemetry was used to track 205 lake sturgeon (Acipenser fulvescens) tagged in the St. Clair and Detroit rivers of the Laurentian Great Lakes over seven years (2012–2019). The objective of this study was to determine if annual survival was related to sex, size, tagging location (river), or year post-tagging using Cormack-Jolly-Seber (CJS) models. Annual survival was high among all seven years (range of point estimates: 95–99%) and did not differ based on sex, tagging year, size at time of tagging, or tagging location. Lake sturgeon detection probability on acoustic receivers was high each year (range of point estimates: 82–99%) and increased as the number of receivers in the system increased. High survival rates of lake sturgeon were consistent with levels thought required for lake sturgeon to be self-sustaining in the St. Clair – Detroit river system. Our application of acoustic telemetry detections as input to CJS models demonstrated the usefulness of this approach and should be considered for population assessment studies throughout the Great Lakes and beyond. [ABSTRACT FROM AUTHOR]

Published

2021

196. Demography of two species and one genus of hummingbirds with contrasting population trends in California, USA.

Author

English, Simon G., Colwell, Rita R., Robinson, Barbara W., Ernest, Holly B., Bishop, Christine A., Bandivadekar, Ruta R., and Tell, Lisa A.

Subjects

HUMMINGBIRDS, RADIO frequency identification systems, BIRD populations, SEX ratio, DEMOGRAPHY, SPECIES, DEMOGRAPHIC surveys

Abstract

Copyright of Journal of Field Ornithology is the property of Resilience Alliance and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2021

197. Double-observer distance sampling improves the accuracy of density estimates for a threatened arboreal mammal.

Author

Cripps, Jemma K., Nelson, Jenny L., Scroggie, Michael P., Durkin, Louise K., Ramsey, David S. L., and Lumsden, Linda F.

Abstract

Context. Determining population size or density is often fundamental for wildlife conservation. For nocturnal species, indices are commonly used in place of abundance estimates, with spotlighting indices (e.g. sighting rate per km) being prevalent. Distance sampling is a collection of techniques that provide estimates of wildlife abundance from line-transect data, by correcting raw counts for imperfect detection. These methods have rarely been used to assess the abundance of nocturnal arboreal mammals. Aims. To develop and evaluate a method for estimating the abundance and density of nocturnal arboreal mammals using double-observer distance sampling, and to apply the approach to a survey of the southern greater glider (Petauroides volans) in the Strathbogie Ranges, Victoria, Australia. Methods. Two observers, 15-20 min apart, surveyed 25 randomly located 500mtransects, and recorded greater gliders using spotlights and binoculars. Densities and abundances were derived from the line-transect data by using mark-recapture distance sampling (MRDS) models and were compared with conventional distance sampling analysis (CDS). Key results. Using the double-observer approach, we estimated an overall density of 0.96 gliders ha -1 (95% CI 0.60-1.50), giving a population estimate of 24 575 greater gliders across the Strathbogie Ranges (25 865 ha, 95% CI 15 620-38 661). The corresponding estimates for the study area derived using CDS applied to either both observers' observations or to the first observer's observations only, were 87% and 53% respectively, of the MRDS estimate. The analysis confirmed that the probability of detection of gliders along the transect line was less than one, justifying the use of the double-observer method to obtain accurate estimates of abundance. Conclusions. The low detectability of greater gliders means that uncorrected spotlight counts will underestimate abundance, as will CDS. The double-observer method corrects for the negative bias associated with raw counts, enabling more accurate estimation of abundance for survey, monitoring and management purposes. Implications. We recommend that double-observer distance sampling is adopted as a standard technique for estimating the abundance of greater gliders. The double-observer method potentially has wider relevance for assessing population size of other arboreal mammals, providing the assumptions of the approach can be met. [ABSTRACT FROM AUTHOR]

Published

2021

198. Catch me if you can: personality drives technique-specific biases during live-capture trapping.

Author

Johnstone, Kyla Chloe, McArthur, Clare, and Banks, Peter Bruce

Abstract

Context. Wildlife surveys often rely on a single live-capture technique to sample animal populations. Yet, animal personality (e.g. bold vs shy) can drive heterogeneity in capture probability, leading to biased sampling during live-capture trapping surveys. Aims. We tested whether a personality-related capture bias is similar between two live-capture techniques, or whether techniques with different capture mechanisms are biased towards certain spectrums of personality. Methods. We compared two live-capture techniques commonly used for surveying lizards, namely, noosing and pitfall traps. Techniques were deployed several days apart to survey populations of a desert-dwelling agamid, the military dragon, and we used outdoor open-field arenas to test for personality traits relating to boldness, activity and exploration. Key results. We found that noosing and pitfall traps sampled distinctly different spectrums of personality, with no individuals being captured by both techniques. Unexpectedly, noosing, which involved people approaching dragons to capture them, was biased towards shyer individuals that stayed close to shelter. In contrast, pitfall traps, which were generally set in open areas, were biased towards capturing individuals that moved further from shelter. Conclusions. We demonstrated that different live-capture techniques can be biased towards different spectrums of personality. We attribute the relationship between personality and technique to an interaction between the capture mechanisms of each technique and individual perceptions of risk and microhabitat use. Implications. To overcome biased and selective sampling and target individuals along a broad spectrum of personality, surveys should use complementary techniques that vary in their capture mechanisms. [ABSTRACT FROM AUTHOR]

Published

2021

199. Low Rates of PIT‐Tag Loss in an Insectivorous Bat Species.

Author

Van Harten, Emmi, Lentini, Pia E., Eastick, Danielle L., Bender, Robert, Lumsden, Lindy F., Visintin, Casey, and Griffiths, Stephen R.

Subjects

*BATS, *WILDLIFE monitoring, *SPECIES, *INJECTIONS, *SURGICAL site, *TRANSPONDERS

Abstract

The rate of loss of tags used to mark individuals is an important consideration in wildlife research and monitoring. Passive integrated transponder (PIT) tags (or microchips) generally have high retention rates; however, tag loss rates for small mammals such as insectivorous bats are poorly understood. We double‐marked a population of Gould's wattled bats (Chalinolobus gouldii) with forearm bands and PIT tags (with the injection site sealed with surgical adhesive) in January and February 2020 to determine rates of subsequent tag loss over the short‐ (1–2 months) and medium‐ (13–14 months) term. Loss of PIT tags occurred in 4 (2.7%) of 146 recaptured individuals, all within 2 months of microchipping. We also recorded 1 occurrence of band loss 11 months after banding. Our study supports assertions that PIT‐tag retention rates in small mammals are high, and suggests that rates of tag loss in small bat species are low when surgical adhesive is applied. Quantifying the rate of tag loss enables this variable to be incorporated into mark‐recapture models. © 2021 The Wildlife Society. [ABSTRACT FROM AUTHOR]

Published

2021

200. First population estimates of the vulnerable southeast Iberian endemic tiger beetle Cephalota (Taenidia) deserticoloides.

Author

Herrera‐Russert, José, López‐López, Alejandro, Serrano, José, Cordero‐Rivera, Adolfo, and Galián, José

Subjects

*TIGER beetles, *POPULATION viability analysis, *POPULATION dynamics, *ADULTS, *SEASONS, *HABITATS, *BEETLES

Abstract

The tiger beetle Cephalota deserticoloides is a species found in a few localised sites in south‐eastern Iberia, where it is a highly specialised inhabitant of the arid saline steppe habitat. Although regarded as vulnerable, very little is known about the actual population dynamics and degree of endangerment of this taxon, which may be worse than previously reported.In this work, mark‐recapture estimates of total population size are presented for one of the main known populations of C. deserticoloides. Additionally, some further remarks on seasonality and co‐occurring tiger beetle species are made.At the seasonal peak of adult activity, the area under consideration holds a relatively dense tiger beetle population with around 865 simultaneously active adult beetles, which is numerically comparable to those of other endangered cicindelids. These results will help assess the conservation status of C. deserticoloides and set the stage for more long‐term efforts, which are clearly needed to analyse population viability, and the priority of C. deserticoloides and its habitat as targets for protective measures.Our observations indicate that a reconsideration of the current International Union for Conservation of Nature (IUCN) listing of C. deserticoloides is strongly justified, from its current status as 'vulnerable' to a new listing as 'endangered'. [ABSTRACT FROM AUTHOR]

Published

2021