Population reinforcement accelerates subadult recruitment rates in an endangered freshwater turtle

Carstairs, Sue; Paterson, James E.; Jäger, Kathrin; Gasbarrini, Donnell Marie-Leah; Mui, Amy; Davy, Christina M.

doi:10.1111/acv.12503

Cited by 32 publications

(39 citation statements)

References 55 publications

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“…Our findings are largely in line with the "bigger is better" hypothesis, which suggests larger juvenile body size increases survival and performance (Packard and Packard, 1988;Janzen, 1993;Kissner and Weatherhead, 2005). Given nest predation can be a serious threat to chelonian population viability (Dodd, 2001;Spencer et al, 2017), head-starting might be an effective strategy for enhancing recruitment (Carstairs et al, 2019). Estimated annual adult survival for T. carolina can be very high (e.g., >0.95, Currylow et al, 2011), whereas at another study site in Michigan, Altobelli (2017) found estimated survival probability of radio-tracked hatchling T. carolina was zero at upwards of one-year in age.…”

Section: Discussionsupporting

confidence: 83%

Captive-rearing duration may be more important than environmental enrichment for enhancing turtle head-starting success

Tetzlaff

Sperry

Kingsbury

et al. 2021

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Raising captive animals past critical mortality stages for eventual release (head-starting) is a common conservation tactic. Counterintuitively, post-release survival can be low. Post-release behavior affecting survival could be influenced by captive-rearing duration and housing conditions. Practitioners have adopted environmental enrichment to promote natural behaviors during head-starting such as raising animals in naturalistic enclosures. Using 32 captive-born turtles (Terrapene carolina), half of which were raised in enriched enclosures, we employed a factorial design to explore how enrichment and rearing duration affected post-release growth, behavior, and survival. Six turtles in each treatment (enriched or unenriched) were head-started for nine months (cohort one). Ten turtles in each treatment were head-started for 21 months (cohort two). At the conclusion of captive-rearing, turtles in cohort two were overall larger than cohort one, but unenriched turtles were generally larger than enriched turtles within each cohort. Once released, enriched turtles grew faster than unenriched turtles in cohort two, but we otherwise found minimal evidence suggesting enrichment affected post-release survival or behavior. Our findings suggest attaining larger body sizes from longer captive-rearing periods to enable greater movement and alleviate susceptibility to predation (the primary cause of death) could be more effective than environmental enrichment alone in chelonian head-starting programs where substantial predation could hinder success.

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Section: Discussionsupporting

confidence: 83%

Captive-rearing duration may be more important than environmental enrichment for enhancing turtle head-starting success

Tetzlaff

Sperry

Kingsbury

et al. 2021

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“…Another common initiative undertaken by zoos, parks, conservation authorities and even private individuals involves incubation of reptile eggs in an ex-situ setting ( Eckert et al , 1999 ), followed by the release of hatchlings or juveniles. Growth of wild populations may then be enhanced by protecting eggs and embryos, which reduces embryonic and hatchling mortality, and/or rearing individuals to larger body sizes before release ( Carstairs et al , 2019 ; Tetzlaff et al , 2019 ), which may increase survival rates in the wild ( Rollinson and Rowe, 2015 ).…”

Section: Introductionmentioning

confidence: 99%

“…Yet, incubation regimes in conservation programs for these taxa are broadly unstandardized. For instance, some head-starting programs allow natural egg incubation ( Bona et al , 2012 ), some allow temperature to fluctuate with above-ground ambient temperature ( Tetzlaff et al , 2019 ) and others incubate different sets of eggs at different constant temperatures ( Carstairs et al , 2019 ). A broad and theoretically informed exploration of how incubation temperature affects fitness in embryos and hatchlings may therefore be useful in developing best practices for artificial incubation in conservation programs.…”

Section: Introductionmentioning

confidence: 99%

A simple model for the evolution of temperature-dependent sex determination explains the temperature sensitivity of embryonic mortality in imperiled reptiles

Lawson

Rollinson

2021

Conservation Physiology

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A common reptile conservation strategy involves artificial incubation of embryos and release of hatchlings or juveniles into wild populations. Temperature-dependent sex determination (TSD) occurs in most chelonians, permitting conservation managers to bias sex ratios towards females by incubating embryos at high temperatures, ultimately allowing the introduction of more egg-bearing individuals into populations. Here, we revisit classic sex allocation theory and hypothesize that TSD evolved in some reptile groups (specifically, chelonians and crocodilians) because male fitness is more sensitive to condition (general health, vigor) than female fitness. It follows that males benefit more than females from incubation environments that confer high-quality phenotypes, and hence high-condition individuals. We predict that female-producing temperatures, which comprise relatively high incubation temperatures in chelonians and crocodilians, are relatively stressful for embryos and subsequent life stages. We synthesize data from 28 studies to investigate how constant temperature incubation affects embryonic mortality in chelonians with TSD. We find several lines of evidence suggesting that warm, female-producing temperatures are more stressful than cool, male-producing temperatures. Further, we find some evidence that pivotal temperatures (TPiv, the temperature that produces a 1:1 sex ratio) may exhibit a correlated evolution with embryonic thermal tolerance. If patterns of temperature-sensitive embryonic mortality are also indicative of chronic thermal stress that occurs post-hatching, then conservation programs may benefit from incubating eggs close to species-specific TPivs, thus avoiding high-temperature incubation. Indeed, our models predict that, on average, a sex ratio of >75% females can generally be achieved by incubating eggs only 1°C above TPiv. Of equal importance, we provide insight into the enigmatic evolution of TSD in chelonians, by providing support to the hypothesis that TSD evolution is related to the quality of the phenotype conferred by incubation temperature, with males produced in high-quality incubation environments.

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“…Blanding's turtle head‐starting has been implemented at other sites in northeastern Illinois (D. Ludwig and D. Thompson, unpublished data; S. Denham, McHenry County Conservation District, personal communication; M. Dreslik, Illinois Natural History Survey, personal communication), Wisconsin, USA (J. Kapfer, University of Wisconsin—Whitewater, personal communication), Minnesota, USA (Linck ), Michigan (Szymanski , Starking‐Szymanski et al ), Massachusetts, USA (Buhlmann et al , Green , Windmiller et al ), New York, USA (Ross and Johnson ), Ontario, Canada (Lentini et al , Ritchie , Carstairs et al ), and Nova Scotia, Canada (Arsenault , D'Entremont ). Some of these efforts have been of limited scope, but others have involved annual releases over extended periods and provide valuable information on head‐start survival and habitat use (Arsenault , D'Entremont , Green , Lentini et al , Windmiller et al ).…”

Section: Discussionmentioning

confidence: 99%

“…Blanding (Lentini et al 2016, Ritchie 2017, Carstairs et al 2019, and Nova Scotia, Canada (Arsenault 2011, D'Entremont 2014. Some of these efforts have been of limited scope, but others have involved annual releases over extended periods and provide valuable information on headstart survival and habitat use (Arsenault 2011, D'Entremont 2014, Green 2015, Lentini et al 2016, Windmiller et al 2016.…”

Section: Recruitment Of Head-starts Into Breeding Populationsmentioning

confidence: 99%

Benefits of Head‐starting for Blanding's Turtle Size Distributions and Recruitment

et al. 2020

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Head‐starting is a widely used turtle conservation measure but its effectiveness is incompletely known. We evaluated the success of 2 long‐term Blanding's turtle (Emydoidea blandingii) head‐starting programs in northeastern Illinois, USA, focusing on the effect that head‐starting has on turtle population body‐size distributions and whether head‐started turtles are successfully recruited as reproductive adults. From 1994 to 2017, we collected and incubated eggs from wild females and reared hatchlings for release back into 2 source populations in DuPage and Lake counties, Illinois. Releases occurred annually for 21‐ and 11‐year spans (~1,400 and 800 releases, respectively). We found that head‐starting resulted in significant shifts in Blanding's turtle population body‐size distributions. Prior to intervention, size distributions were strongly skewed toward large adults at both sites, a pattern sometimes interpreted as arising from elevated egg and hatchling mortality and a lack of juvenile recruitment. Currently, population body‐size distributions include a wide range of juvenile and adult size turtles. Importantly, head‐starts have begun reproducing in the 21‐year program and are approaching adult size in the 11‐year program. Blanding's turtle head‐starting shows promise for increasing recruitment in existing populations while threat mitigation is implemented. © 2020 The Wildlife Society.

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Population reinforcement accelerates subadult recruitment rates in an endangered freshwater turtle

Cited by 32 publications

References 55 publications

Captive-rearing duration may be more important than environmental enrichment for enhancing turtle head-starting success

Captive-rearing duration may be more important than environmental enrichment for enhancing turtle head-starting success

A simple model for the evolution of temperature-dependent sex determination explains the temperature sensitivity of embryonic mortality in imperiled reptiles

Benefits of Head‐starting for Blanding's Turtle Size Distributions and Recruitment

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