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1. Uncovering the Sex-Specific Endocrine Responses to Reproduction and Parental Care

   https://doi.org/10.3389/fendo.2021.631384  

   Austin, Suzanne H.; Krause, Jesse S.; Viernes, Rechelle; Farrar, Victoria S.; Booth, April M.; Harris, Rayna M.; Angelier, Frédéric; Lee, Candice; Bond, Annie; Wingfield, John C.; et al (November 2021, Frontiers in Endocrinology)

   Hormones mediate physiological and behavioral changes in adults as they transition into reproduction. In this study, we characterize the circulating levels of five key hormones involved in reproduction in rock doves ( Columba livia ): corticosterone, progesterone, estradiol, testosterone, and prolactin using univariate and multivariate approaches. We show similar patterns as previous studies in the overall patterns in circulating levels of these hormones, i.e., testosterone (males) and estradiol (females) high during nest-building or egg-laying, prolactin increasing at mid-incubation and peaking at hatching (both sexes), and elevated corticosterone levels in later incubation and early nestling development. In our investigation of hormone co-variation, we find a strong correlation between prolactin and corticosterone across sampling stages and similarities in earlier (early to mid-incubation) compared to later (late incubation to nestling d9) sampling stages in males and females. Finally, we utilized experimental manipulations to simulate nest loss or altered caregiving lengths to test whether external cues, internal timing, or a combination of these factors contributed most to hormone variation. Following nest loss, we found that both males and females responded to the external cue. Males generally responded quickly following nest loss by increasing circulating testosterone, but this response was muted when nest loss occurred early in reproduction. Similar treatment type, e.g., removal of eggs, clustered similarly in hormone space. These results suggest internal drivers limited male response early in reproduction to nest loss. In contrast, circulating levels of these hormones in females either did not change or decreased following nest manipulation suggesting responsiveness to external drivers, but unlike males, this result suggests that reproductive processes were decreasing. 

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2. Plasticity of dung beetle mothers rescues offspring survival under climate change conditions

   Carter, Amanda; Sheldon, Kimberly S (March 2023, Integrative and Comparative Biology)

   By influencing offspring development and survival, parental effects have the potential to aid responses to rapid environmental change. We examined whether Onthophagus taurus dung beetles modified breeding behaviors in response to climate change conditions, and as a result, buffered their offspring from increasing temperatures during development. We conducted a breeding experiment under miniature greenhouses in the field and tracked female reproductive behaviors and offspring phenotype and survival. Dung beetles lay eggs inside of brood balls made of dung and bury them underground. Burial depth influences the temperatures offspring experience during development – with deeper depths offering cooler, less variable temperatures – which can have profound effects on development. We put females in ambient or greenhouse treatments and measured brood ball production, mass, and burial depth.We allowed offspring to develop underground at the maternal burial depth until eclosion, and measured offspring survival, mass, and sex. Females in the greenhouse treatment buried brood balls deeper than those in the ambient treatment, such that offspring developed at similar temperatures in both treatments. As a result, offspring survival was similar between treatments, but body size was smaller, and more females were produced in the greenhouse treatment. Our results demonstrate that parental effects can buffer offspring survival from climate change, underscoring the importance of plasticity in climate change responses. 

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3. Spatial and temporal variation in nest temperatures forecasts sex ratio skews in a crocodilian with environmental sex determination

   https://doi.org/10.1098/rspb.2020.0210  

   Bock, Samantha L.; Lowers, Russell H.; Rainwater, Thomas R.; Stolen, Eric; Drake, John M.; Wilkinson, Philip M.; Weiss, Stephanie; Back, Brenton; Guillette, Louis; Parrott, Benjamin B. (May 2020, Proceedings of the Royal Society B: Biological Sciences)

   null (Ed.)

   Species displaying temperature-dependent sex determination (TSD) are especially vulnerable to the effects of a rapidly changing global climate due to their profound sensitivity to thermal cues during development. Predicting the consequences of climate change for these species, including skewed offspring sex ratios, depends on understanding how climatic factors interface with features of maternal nesting behaviour to shape the developmental environment. Here, we measure thermal profiles in 86 nests at two geographically distinct sites in the northern and southern regions of the American alligator's ( Alligator mississippiensis ) geographical range, and examine the influence of both climatic factors and maternally driven nest characteristics on nest temperature variation. Changes in daily maximum air temperatures drive annual trends in nest temperatures, while variation in individual nest temperatures is also related to local habitat factors and microclimate characteristics. Without any compensatory nesting behaviours, nest temperatures are projected to increase by 1.6–3.7°C by the year 2100, and these changes are predicted to have dramatic consequences for offspring sex ratios. Exact sex ratio outcomes vary widely depending on site and emission scenario as a function of the unique temperature-by-sex reaction norm exhibited by all crocodilians. By revealing the ecological drivers of nest temperature variation in the American alligator, this study provides important insights into the potential consequences of climate change for crocodilian species, many of which are already threatened by extinction. 

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4. Adaptation of sea turtles to climate warming: Will phenological responses be sufficient to counteract changes in reproductive output?

   https://doi.org/10.1111/gcb.16991  

   Fuentes, M_M_P_B; Santos, A_J_B; Abreu‐Grobois, A.; Briseño‐Dueñas, R.; Al‐Khayat, J.; Hamza, S.; Saliba, S.; Anderson, D.; Rusenko, K_W; Mitchell, N_J; et al (October 2023, Global Change Biology)

   Abstract Sea turtles are vulnerable to climate change since their reproductive output is influenced by incubating temperatures, with warmer temperatures causing lower hatching success and increased feminization of embryos. Their ability to cope with projected increases in ambient temperatures will depend on their capacity to adapt to shifts in climatic regimes. Here, we assessed the extent to which phenological shifts could mitigate impacts from increases in ambient temperatures (from 1.5 to 3°C in air temperatures and from 1.4 to 2.3°C in sea surface temperatures by 2100 at our sites) on four species of sea turtles, under a “middle of the road” scenario (SSP2‐4.5). Sand temperatures at sea turtle nesting sites are projected to increase from 0.58 to 4.17°C by 2100 and expected shifts in nesting of 26–43 days earlier will not be sufficient to maintain current incubation temperatures at 7 (29%) of our sites, hatching success rates at 10 (42%) of our sites, with current trends in hatchling sex ratio being able to be maintained at half of the sites. We also calculated the phenological shifts that would be required (both backward for an earlier shift in nesting and forward for a later shift) to keep up with present‐day incubation temperatures, hatching success rates, and sex ratios. The required shifts backward in nesting for incubation temperatures ranged from −20 to −191 days, whereas the required shifts forward ranged from +54 to +180 days. However, for half of the sites, no matter the shift the median incubation temperature will always be warmer than the 75th percentile of current ranges. Given that phenological shifts will not be able to ameliorate predicted changes in temperature, hatching success and sex ratio at most sites, turtles may need to use other adaptive responses and/or there is the need to enhance sea turtle resilience to climate warming. 

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5. Thermal history of alfalfa leafcutting bees affects nesting and diapause incidence

   https://doi.org/10.1242/jeb.243242  

   Earls, Kayla N.; Porter, Monique S.; Rinehart, Joseph P.; Greenlee, Kendra J. (November 2021, Journal of Experimental Biology)

   ABSTRACT Variable spring temperatures may expose developing insects to sublethal conditions, resulting in long-term consequences. The alfalfa leafcutting bee, Megachile rotundata, overwinters as a prepupa inside a brood cell, resuming development in spring. During these immobile stages of development, bees must tolerate unfavorable temperatures. In this study, we tested how exposure to low temperature stress during development affects subsequent reproduction and characteristics of the F1 generation. Developing male and female M. rotundata were exposed to either constant (6°C) or fluctuating (1 h day−1 at 20°C) low temperature stress for 1 week, during the pupal stage, to mimic a spring cold snap. Treated adults were marked and released into field cages, and reproductive output was compared with that of untreated control bees. Exposure to low temperatures during the pupal stage had mixed effects on reproduction and offspring characteristics. Females treated with fluctuating low temperatures were more likely to nest compared with control bees or those exposed to constant low temperature stress. Sublethal effects may have contributed to low nesting rates of bees exposed to constant low temperatures. Females from that group that were able to nest had fewer, larger offspring with high viability, suggesting a trade-off. Interestingly, offspring of bees exposed to fluctuating low temperatures were more likely to enter diapause, indicating that thermal history of parents, even during development, is an important factor in diapause determination. 

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