Abstract
Climate change and pollution are some of the greatest anthropogenic threats to wild animals. Transgenerational plasticity—when parental exposure to environmental stress leads to changes in offspring phenotype—has been highlighted as a potential mechanism to respond to various environmental and anthropogenic changes across taxa. Transgenerational effects may be mediated via multiple mechanisms, such as transfer of maternal hormones to eggs/foetus. However, sources of variation in hormone transfer are poorly understood in fish, and thus the first step is to characterise whether environmental challenges alter transfer of maternal hormones to eggs. To this end, we explored the population variation and environmental variation (in response to temperature and endocrine disrupting copper) in maternal thyroid hormone (TH), transfer to offspring in a common fish model species, the three-spined stickleback (Gasterosteus aculeatus) using multiple approaches: (i) We compared ovarian TH levels among six populations across a wide geographical range in the Baltic Sea, including two populations at high water temperature areas (discharge water areas of nuclear power plants) and we experimentally exposed fish to (ii) environmentally relevant heat stress and (iii) copper for 7 days. We found that populations did not differ in intraovarian TH levels, and short-term heat stress did not influence intraovarian TH levels. However, copper exposure increased both T4 and T3 levels in ovaries. The next step would be to evaluate if such alterations would lead to changes in offspring phenotype.
Highlights
Climate change and pollution are some of the greatest anthropogenic threats to wild populations
In both Gulfs one of the locations was in the cooling water discharge area of a nuclear power plant, where discharged water is about 10–12 °C warmer than the surface water and the discharge has continued for ca 50 years (Keskitalo and Ilus 1987), these sites can be viewed as mimicking global warming
In contrast to our hypothesis, we found no evidence that intraovarian thyroid hormone (TH) levels of individuals originating from populations close to a long-term heat source, differ from individuals originating from reference populations
Summary
Climate change and pollution are some of the greatest anthropogenic threats to wild populations. Transgenerational effects may be mediated via multiple mechanisms, such as epigenetic markers, transfer of maternal hormones or RNAs to eggs/foetus (e.g. AdrianKalchhauser et al 2018; Best et al 2018; Kim et al 2019; Metzger and Schulte 2017; Meylan et al 2012; Ruuskanen and Hsu 2018). Recent studies suggest that the role of THs on early development involves maternally transferred hormones (fish, Brown et al 2014; birds, Hsu et al 2017; Hsu et al 2019; mammals, Patel et al 2011; reviwed in Ruuskanen et al 2016a). Maternally derived and early-life THs influence development, such as hatching, growth rates, gene expression patterns, and survival (reviewed in Brown et al 2014, Power et al 2001, 2014, Ruuskanen and Hsu 2018)
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