Interspecific differences in eggshell thickness and the elemental composition of pigment spot and plain shell regions in altricial and precocial birds

IF 1.3 4区 生物学 Q2 Agricultural and Biological Sciences
Grzegorz Orłowski, Przemysław Pokorny, Szymon Bzoma, Andrzej Dyrcz, Artur Golawski, Joanna Rosenberger, Paweł Kołodziejczyk, Dorota Merta, Marcin Sulwiński, Małgorzata Suska-Malawska
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引用次数: 0

Abstract

Our study reveals for the first time in a quantitative manner the differences in eggshell thickness and elemental composition between pigment spots and adjacent plain eggshell regions in bird species from three developmental modes, i.e. altricial (Great Reed Warbler Acrocephalus arundinaceus), semi-precocial (Black-headed Gull Chroicocephalus ridibundus, Mediterranean Gull Ichthyaetus melanocephalus, Sandwich Tern Thalasseus sandvicensis and Black Tern Chlidonias niger) and precocial species (Western Capercaillie Tetrao urogallus and Black Grouse Lyrurus tetrix). From a broader biological/biogeochemical perspective, our data broaden the knowledge in the heterogeneity of elemental composition between adjacent spotted-plain regions of eggshells, previously demonstrated in galliform birds, which differ in colour for many chemical elements. These differences, however, were distinctive of individual species and varied between chemical elements. There emerged a clear and consistent trend of higher elemental concentrations within pigment spots compared to plain eggshell regions, particularly in the case of five elements: C, Pb, Cu, Cr and Al. The most important and novel finding of our study is that even though the eggshells of gulls and terns (semi-precocial species) and of the passerine (altricial species) were thinner in the spotted regions (there was thus less shell material) compared with those of precocials (the eggshells being thicker eggshells at the spots), the spotted regions of all these eggs contained disproportionally higher concentrations of most major and minor chemical elements. Hence, this appears to be a general rule across all birds, regardless of the eggshell thickness in the spotted or plain regions and/or their developmental mode. In other words, this finding confirms that the thickness of the eggshell itself does not affect the concentrations of elements, and that the key issue related to this is the presence of one or more protoporphyrin layers along with the accompanying pool of chemical elements within the spotted eggshell region.

Abstract Image

初生鸟类和早熟鸟类蛋壳厚度以及色斑和普通蛋壳区域元素组成的种间差异
我们的研究首次以定量的方式揭示了三种发育模式的鸟类,即初生鸟类(大苇莺 Acrocephalus arundinaceus)、半社会鸟类(黑头鸥 Chroicocephalus ridibundus、地中海鸥 Ichichranean Gull)蛋壳厚度和色素斑与相邻普通蛋壳区域之间的元素组成差异。研究首次定量分析了三种发育模式鸟类的蛋壳厚度和蛋壳色素斑与相邻普通蛋壳区域之间的元素组成差异,这三种模式的鸟类分别是初生鸟类(大苇莺 Acrocephalus arundinaceus)、半初生鸟类(黑头鸥 Chroicocephalus ridibundus、地中海鸥 Ichthyaetus melanocephalus、沙燕鸥 Thalasseus sandvicensis 和黑燕鸥 Chlidonias niger)和初生鸟类(西部狍 Tetrao urogallus 和黑松鸡 Lyrurus tetrix)。从更广泛的生物/生物地球化学角度来看,我们的数据拓宽了人们对蛋壳相邻斑原区之间元素组成异质性的认识。然而,这些差异在不同物种之间存在明显差异,而且不同化学元素之间也存在差异。与普通蛋壳区域相比,色素斑内元素浓度较高的趋势明显而一致,尤其是五种元素:C、Pb、Cu、Cr 和 Al。我们的研究最重要和最新颖的发现是,尽管海鸥和燕鸥(半早熟种)以及雀形目(早熟种)的蛋壳在色斑区域比早熟种的蛋壳薄(因此蛋壳物质较少)(色斑处的蛋壳较厚),但所有这些鸟蛋的色斑区域含有的大多数主要和次要化学元素的浓度都高得不成比例。因此,这似乎是所有鸟类的普遍规律,无论斑点区或平原区的蛋壳厚度和/或其发育模式如何。换句话说,这一发现证实了蛋壳本身的厚度并不会影响元素的浓度,与此相关的关键问题在于斑点蛋壳区域内是否存在一个或多个原卟啉层以及随之而来的化学元素池。
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来源期刊
Journal of Ornithology
Journal of Ornithology 生物-鸟类学
自引率
7.70%
发文量
0
审稿时长
3-8 weeks
期刊介绍: The Journal of Ornithology (formerly Journal für Ornithologie) is the official journal of the German Ornithologists'' Society (http://www.do-g.de/ ) and has been the Society´s periodical since 1853, making it the oldest still existing ornithological journal worldwide.
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