Variation and taphonomic implications of composition in modern and fossil malacostracan cuticles (Decapoda: Malacostraca)

IF 1.2 4区 生物学 Q3 MARINE & FRESHWATER BIOLOGY
R. Plotnick, S. McCarroll
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引用次数: 0

Abstract

The crustacean fossil record is dominated by mineralized forms. These fossils, in turn, are mainly decapod chelae or parts of chelae. Studies of the composition of modern crustacean cuticles have likewise been dominated by decapods. We summarize major element chemical analyses (Ca, Mg, Na, P) using SEM-EDS of modern crustacean exoskeletons from Bermuda, Georgia (USA), and Lake Tanganyika (Burundi). Although most specimens were brachyuran and anomuran crabs, material also included examples of stomatopods, isopods, caridean shrimps, and achelatans. Transects were made of sections of the carapace, palm of the propodus, and tips of either the dactyl or propodus. Multiple transects were made of the Bermudan land crab Gecarcinus lateralis. Additional studies were made of brachyuran fossil crabs from Texas and South Dakota and of brachyuran crabs having undergone ten months of burial in marine sediments. Overall, the tips of the chela were the thickest and most heavily mineralized regions and had the lowest phosphorus content. In nearly all cases, they also had the lowest ratios of Mg to Ca. One notable exception was Gecarcinus, where the denticles had elevated Mg:Ca values. Anomura and Brachyura had markedly different composition from Stomatopoda and possibly Isopoda, suggestive of independent evolutionary origins of biomineralization within the Crustacea. There were also significant differences in composition between brachyuran crabs from Georgia and Bermuda, perhaps due to differences in water temperature. The fossil crustaceans had much more phosphate in their cuticles, likely as a result of diagenetic processes. Composition should be a first order control on the fossil record of crustaceans. Future studies need to expand the taxonomic and geographic ranges of material examined, determine whether there are environmental controls on composition, and explore the relevant diagenetic processes.
现代和化石软体动物角质层组成的变化和地形学意义(十足目:马六甲)
甲壳类动物化石记录以矿化形式为主。反过来,这些化石主要是十足目龟科或龟科的一部分。对现代甲壳类动物角质层组成的研究同样以十足类动物为主。我们总结了使用SEM-EDS对来自百慕大、格鲁吉亚(美国)和坦噶尼喀湖(布隆迪)的现代甲壳类动物外骨骼进行的主要元素化学分析(Ca、Mg、Na、P)。尽管大多数标本是短吻蟹和异吻蟹,但材料也包括口足类、等足类、脊虾和瘦腿蟹的例子。切片是由甲壳的切片、蜂胶的手掌以及dactyl或蜂胶的尖端制成的。对百慕大陆蟹Gecarcinus lateralis进行了多个断面的研究。对德克萨斯州和南达科他州的短吻蟹化石以及在海洋沉积物中埋葬了十个月的短吻螃蟹进行了额外的研究。总的来说,螯叶的尖端是最厚、矿化最重的区域,磷含量最低。在几乎所有的情况下,它们的Mg与Ca的比例也最低。一个值得注意的例外是Gecarcinus,那里的小齿具有升高的Mg:Ca值。Anomura和Brachyuna的组成与口足目和可能的等足目明显不同,这表明甲壳纲生物矿化的独立进化起源。来自格鲁吉亚和百慕大的短吻蟹的成分也存在显著差异,可能是由于水温的差异。甲壳类动物化石的角质层中有更多的磷酸盐,这可能是成岩过程的结果。成分应该是甲壳类动物化石记录的一级控制。未来的研究需要扩大所检查物质的分类和地理范围,确定是否存在对成分的环境控制,并探索相关的成岩过程。
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来源期刊
Journal of Crustacean Biology
Journal of Crustacean Biology 生物-海洋与淡水生物学
CiteScore
2.10
自引率
9.10%
发文量
66
审稿时长
6-12 weeks
期刊介绍: The Journal of Crustacean Biology is the official journal of The Crustacean Society, publishing peer-reviewed research on all aspects of crustacean biology and other marine arthropods. Papers are published in English only, but abstracts or summaries in French, German, Portuguese, or Spanish may be added when appropriate.
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