欧洲蜂鸟繁殖性别比与春季表型的关系

Pub Date : 2022-09-23 DOI:10.5253/arde.2022.a10
Kees H. T. Schreven, R. Bijlsma, C. Both
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引用次数: 0

摘要

在性大小二型鸟类中,儿子和女儿的养育成本通常不同,这可能对后代性别比调整的进化很重要。猛禽具有相反的性别大小二型性,体型较小的雄性有时在食物匮乏的地区或年份中比例过高。作为一种具有小的反向两性异形(身体质量为6%)的猛禽,预计欧洲蜜蜂蟾蜍(Honey Buzzard Pernis apivorus)在环境条件下很少或没有表现出繁殖性别比偏差。在1996-2014年期间,我们对荷兰及其周边地区195窝中的311只小鸡进行了分子性别分析。我们研究了哪些环境因素最能解释窝性别比的变化。总的来说,性别比没有偏差(所有巢穴的雌性总数为50.8%),但在平均繁殖较早的年份,产下的雌性数量更多(在年平均产卵日的十天范围内,性别比变化了32%)。年内产卵日期的变化、孵化顺序、蜂巢的丰度(主要食物来源)和夏季天气并不能解释性别比的变化。在Veluwe和Drenthe(1974–2014),Honey Buzzards在春季变暖时更早产卵,这导致40年来产卵日期提前了约9天。由于温暖的春季天气也是黄蜂群落密度更高的预测因素,我们预计,如果性别比偏差是适应性的,雌性小鸡在黄蜂丰富的年份长大会比雄性受益更多。然而,这种差异生长效益在鸡的体重中并不明显;鸡体质量的最佳解释是相对产卵日期(一年内)和孵化顺序的负面影响。雌性雏鸟(与雄性相比)在温暖的春天长大,产卵较早,黄蜂群落更丰富,这对它们的潜在好处仍然未知。
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Brood Sex Ratio in European Honey Buzzards Pernis apivorus is Related to Spring Phenology
In sexually size-dimorphic bird species, rearing costs of sons and daughters usually differ and may be important in the evolution of offspring sex ratio adjustment. Raptors have reversed sexual size dimorphism and the smaller males are sometimes found to be overrepresented in food-poor territories or years. As a raptor with small reversed sexual dimorphism (6% in body mass), the European Honey Buzzard Pernis apivorus is expected to show little or no brood sex ratio bias in relation to environmental conditions. We molecularly sexed 311 chicks of 195 broods in and around The Netherlands, during 1996–2014. We examined which environmental factors explained brood sex ratio variation best. Overall, sex ratio was not biased (all nests pooled: 50.8% females) but more females were produced in years when on average Honey Buzzards bred earlier (32% sex ratio change over a ten-day range in annual mean laying date). Within-year laying date variation, hatching order, abundance of wasp (Vespinae) nests (main food source) and summer weather did not explain sex ratio variation. In the Veluwe and Drenthe (1974–2014), Honey Buzzards laid eggs earlier when the spring was warmer, which resulted in a c. 9-day advance in laying date over 40 years. As warm spring weather was also a predictor of a higher density of wasp colonies, we expected female chicks to benefit more from growing up in wasp-rich years than males, if the sex ratio biases were adaptive. However, this differential growth benefit was not noticeable in chick body mass; chick body mass was best explained by negative effects of relative laying date (within a year) and hatching order. The potential benefit for female nestlings (compared to males) of growing up in years with warm springs, when egg laying occurs early and wasp colonies are more abundant, remains unknown.
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