Trace element contaminants and endocrine status of European brown bears assessed using blood as a matrix.

IF 8.2 1区 环境科学与生态学 Q1 ENVIRONMENTAL SCIENCES Science of the Total Environment Pub Date : 2024-12-20 Epub Date: 2024-11-21 DOI:10.1016/j.scitotenv.2024.177486
Maja Lazarus, Agnieszka Sergiel, Maja Ferenčaković, Ankica Sekovanić, Slaven Reljić, Lana Pađen, David M Janz, Ena Oster, Tomasz Zwijacz-Kozica, Filip Zięba, Nuria Selva, Đuro Huber
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Abstract

Bioaccumulation of trace element contaminants with endocrine disruptive (ED) potential has been noted in European brown bears, though evidence of their effects is lacking. Generalized linear models were employed to assess circulating levels of reproductive, stress, and thyroid hormones in relation to arsenic (As), cadmium (Cd), mercury (Hg), lead (Pb) and thallium (Tl) in 53 free-ranging brown bears (Ursus arctos) from two European populations (Carpathian and Dinara-Pindos). Other potential drivers of hormone variation, such as essential elements, ecological factors, physiological variables, and capture methods, were included as predictors. The models demonstrated a positive association between cortisol and Cd, and a negative association with Tl. In addition, Tl and Pb were identified as key factors in explaining variation in thyroid hormones (free triiodothyronine, fT3 and free thyroxine, fT4). Trap type was significant in explaining variation in fT3 concentrations, while sex was an important predictor of progesterone levels. The essential elements, cobalt (Co) and copper (Cu) accounted for 41 % of testosterone variation, while Cu and selenium (Se) were negatively associated with fT4. Other notable predictors of investigated hormone variation included body condition index (important for cortisol), age (for fT4), year (for fT3), capture day (for fT4 and fT4:fT3 ratio) and population (fT4:fT3 ratio). This study evidenced trace elements as important factors to consider when studying hormonal variation in terrestrial wildlife (Tl for cortisol and fT3, Cd for cortisol, Cu for testosterone and fT4, Co for testosterone, Pb and Se for fT4). To gain a more definitive understanding of the effects of exposure to element contaminants on endocrine status, it is recommended to include more sensitive and specific endocrine disruption-related endpoints in a larger sample size. Doing so will further enhance our understanding of the potential adverse endocrine effects of environmental pollutants on these bear populations and other large mammalian wildlife species.

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以血液为基质评估欧洲棕熊体内的微量元素污染物和内分泌状况。
欧洲棕熊体内已经出现了具有内分泌干扰(ED)潜能的微量元素污染物的生物累积现象,但尚无证据证明其影响。本研究采用广义线性模型评估了来自两个欧洲种群(喀尔巴阡山脉和迪纳拉-平多斯山脉)的 53 头自由活动的棕熊(Ursus arctos)体内与砷(As)、镉(Cd)、汞(Hg)、铅(Pb)和铊(Tl)有关的生殖激素、应激激素和甲状腺激素的循环水平。荷尔蒙变化的其他潜在驱动因素,如基本要素、生态因素、生理变量和捕捉方法,也被列为预测因子。模型显示皮质醇与镉之间存在正相关,而与碲之间存在负相关。此外,Tl 和 Pb 被认为是解释甲状腺激素(游离三碘甲状腺原氨酸 fT3 和游离甲状腺素 fT4)变化的关键因素。捕获器类型对解释 fT3 浓度的变化具有重要意义,而性别则是预测孕酮水平的重要因素。必需元素钴(Co)和铜(Cu)占睾酮变化的 41%,而铜和硒(Se)与 fT4 呈负相关。其他显著预测调查激素变化的因素包括身体状况指数(对皮质醇很重要)、年龄(对 fT4)、年份(对 fT3)、捕获日(对 fT4 和 fT4:fT3 比率)和种群(fT4:fT3 比率)。这项研究证明,微量元素是研究陆生野生动物荷尔蒙变化时需要考虑的重要因素(皮质醇和 fT3 含钛,皮质醇含镉,睾酮和 fT4 含铜,睾酮含 Co,fT4 含铅和硒)。为了更明确地了解暴露于元素污染物对内分泌状态的影响,建议在更大样本量中纳入更敏感、更具体的内分泌干扰相关终点。这样做将进一步加深我们对环境污染物对这些黑熊种群和其他大型哺乳类野生动物内分泌的潜在不利影响的了解。
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来源期刊
Science of the Total Environment
Science of the Total Environment 环境科学-环境科学
CiteScore
17.60
自引率
10.20%
发文量
8726
审稿时长
2.4 months
期刊介绍: The Science of the Total Environment is an international journal dedicated to scientific research on the environment and its interaction with humanity. It covers a wide range of disciplines and seeks to publish innovative, hypothesis-driven, and impactful research that explores the entire environment, including the atmosphere, lithosphere, hydrosphere, biosphere, and anthroposphere. The journal's updated Aims & Scope emphasizes the importance of interdisciplinary environmental research with broad impact. Priority is given to studies that advance fundamental understanding and explore the interconnectedness of multiple environmental spheres. Field studies are preferred, while laboratory experiments must demonstrate significant methodological advancements or mechanistic insights with direct relevance to the environment.
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