Agricultural land use creates evolutionary traps for nesting turtles and is exacerbated by mercury pollution

Thompson, Molly; Coe, Brittney H.; Andrews, Robin M.; Cristol, Daniel A.; Crossley, Dane A.; Hopkins, William A.

doi:10.1002/jez.2198

Cited by 14 publications

(5 citation statements)

References 98 publications

(172 reference statements)

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“…At the landscape level (7680 m), the relationship between sex ratio and crop cover appears to follow the opposite trend, with proportion of males captured increasing with greater crop cover. This pattern may reflect the potential cooling effect that mature crops can have on nests (Mui et al, 2016; Thompson, Coe, Andrews, Cristol, et al, 2018). Given that females typically nest near wetlands (Beaudry et al, 2010) and rarely, if ever, travel more than a few hundred meters to nest (Steen et al, 2012), this relationship may reflect a component of spotted turtle ecology that operates at a larger spatial scale, such as male dispersal distance.…”

Section: Discussionmentioning

confidence: 99%

“…For example, the urban heat island effect has the potential to generate female‐biased populations in urbanized settings via TSD (for species that produce females at higher temperatures; discussed by Bowne et al, 2018). Conversely, row crops can act as ecological traps by presenting suitable incubation conditions during the nesting period, but producing considerably cooler temperatures once crop growth progresses, ultimately leading to male‐skewed clutches (Freedberg et al, 2011; Thompson, Coe, Andrews, Cristol, et al, 2018; Thompson, Coe, Andrews, Stauffer, et al, 2018). Freshwater turtles are also widely considered susceptible to differential mortality among sexes driven by land use, whereby male‐biased sex ratios are produced due to increased vulnerability of females during nesting forays (Aresco, 2005; Steen et al, 2006; Steen & Gibbs, 2004).…”

Section: Introductionmentioning

confidence: 99%

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Is the future female for turtles? Climate change and wetland configuration predict sex ratios of a freshwater species

Roberts

Willey

Jones³

et al. 2023

Global Change Biology

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Climate change and land‐use change are leading drivers of biodiversity decline, affecting demographic parameters that are important for population persistence. For example, scientists have speculated for decades that climate change may skew adult sex ratios in taxa that express temperature‐dependent sex determination (TSD), but limited evidence exists that this phenomenon is occurring in natural settings. For species that are vulnerable to anthropogenic land‐use practices, differential mortality among sexes may also skew sex ratios. We sampled the spotted turtle (Clemmys guttata), a freshwater species with TSD, across a large portion of its geographic range (Florida to Maine), to assess the environmental factors influencing adult sex ratios. We present evidence that suggests recent climate change has potentially skewed the adult sex ratio of spotted turtles, with samples following a pattern of increased proportions of females concomitant with warming trends, but only within the warmer areas sampled. At intermediate temperatures, there was no relationship with climate, while in the cooler areas we found the opposite pattern, with samples becoming more male biased with increasing temperatures. These patterns might be explained in part by variation in relative adaptive capacity via phenotypic plasticity in nest site selection. Our findings also suggest that spotted turtles have a context‐dependent and multi‐scale relationship with land use. We observed a negative relationship between male proportion and the amount of crop cover (within 300 m) when wetlands were less spatially aggregated. However, when wetlands were aggregated, sex ratios remained consistent. This pattern may reflect sex‐specific patterns in movement that render males more vulnerable to mortality from agricultural machinery and other threats. Our findings highlight the complexity of species' responses to both climate change and land use, and emphasize the role that landscape structure can play in shaping wildlife population demographics.

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Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Is the future female for turtles? Climate change and wetland configuration predict sex ratios of a freshwater species

Roberts

Willey

Jones³

et al. 2023

Global Change Biology

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“…This section contains four original research papers that examine the potential consequences of warming temperatures and pollutants on development of reptile embryos. First, Thompson et al (2018) demonstrated that snapping turtle embryos are negatively affected by shaded conditions in agricultural fields, as well as by mercury pollution at these sites. Sanger, Kyrkos, Lachance, Czesney, and Stroud (2018) demonstrated that increasing temperatures negatively affect embryo survival during the stages of morphogenesis in brown anoles, and suggest that climate change will likely negatively affect egg survival given that nests in the field are currently at the thermal limits.…”

Section: Global Change Biology and Conservationmentioning

confidence: 99%

Introduction to the special issue—Developmental plasticity in reptiles: Physiological mechanisms and ecological consequences

Warner

Georges

2018

J Exp Zool Pt A

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“…Plasticity of the embryonic cardiovascular system in crocodilians has been the focus of several recent investigations. The American alligator (Alligator mississippiensis; Duadin, 1801) undergoes both morphological and physiological changes in response to fluctuations in O 2 availability during development (8,9,(11)(12)(13)(14)(15)(16). Specifically, egg incubation in 10% O 2 induces changes in protein composition of cardiac tissue, cardiac growth, blood pressure, and cardiovascular regulatory mechanisms of embryonic alligators (14,15,(17)(18)(19)(20).…”

Section: Introductionmentioning

confidence: 99%

Changes in hemoglobin function and isoform expression during embryonic development in the American alligator, Alligator mississippiensis

Bautista

Petersen

Jensen

et al. 2021

American Journal of Physiology-Regulatory, Integrative and Comp

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In the developing embryos of egg-laying vertebrates, O2 flux takes place across a fixed surface area of the eggshell and the chorioallantoic membrane. In the case of crocodilians, the developing embryo may experience a decrease in O2 flux when the nest becomes hypoxic, which may cause compensatory adjustments in blood O2 transport. However, whether the switch from embryonic to adult hemoglobin isoforms (isoHb) plays some role in these adjustments is unknown. Here, we provide a detailed characterization of the developmental switch of isoHb synthesis in the American alligator, Alligator mississippiensis. We examined the in vitro functional properties and subunit composition of purified alligator isoHbs expressed during embryonic developmental stages in normoxia and hypoxia (10% O2). We found distinct patterns of isoHb expression in alligator embryos at different stages of development, but these patterns were not affected by hypoxia. Specifically, alligator embryos expressed two main isoHbs, HbI, prevalent at early developmental stages, with a high O2 affinity and high ATP sensitivity, and HbII, prevalent at later stages and identical to the adult protein, with a low O2 affinity and high CO2 sensitivity. These results indicate that whole blood O2 affinity is mainly regulated by ATP in the early embryo and by CO2 and bicarbonate from the late embryo until adult life, but the developmental regulation of isoHb expression is not affected by hypoxia exposure.

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Agricultural land use creates evolutionary traps for nesting turtles and is exacerbated by mercury pollution

Cited by 14 publications

References 98 publications

Is the future female for turtles? Climate change and wetland configuration predict sex ratios of a freshwater species

Is the future female for turtles? Climate change and wetland configuration predict sex ratios of a freshwater species

Introduction to the special issue—Developmental plasticity in reptiles: Physiological mechanisms and ecological consequences

Changes in hemoglobin function and isoform expression during embryonic development in the American alligator, Alligator mississippiensis

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