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利用硫稳定同位素比值(δ S)进行动物定位:估计饮食摄入和尾毛中同位素掺入之间的延迟机制。

Using sulfur stable isotope ratios (δ S) for animal geolocation: Estimating the delay mechanisms between diet ingestion and isotope incorporation in tail hair.

机构信息

School of Biodiversity, One Health and Veterinary Medicine, Graham Kerr Building, University of Glasgow, Glasgow, UK.

National Environmental Isotope Facility, Scottish Universities Environmental Research Centre, University of Glasgow, Glasgow, UK.

出版信息

Rapid Commun Mass Spectrom. 2024 Jan 30;38(2):e9674. doi: 10.1002/rcm.9674.

DOI:10.1002/rcm.9674
PMID:38124168
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10909487/
Abstract

RATIONALE

Metabolism and diet quality play an important role in determining delay mechanisms between an animal ingesting an element and depositing the associated isotope signal in tissue. While many isotope mixing models assume instantaneous reflection of diet in an animal- tissue, this is rarely the case. Here we use data from wildebeest to measure the lag time between ingestion of S and its detection in tail hair.

METHODS

We use time-lagged regression analysis of δ S data from GPS-collared blue wildebeest from the Serengeti ecosystem in combination with δ S isoscape data to estimate the lag time between an animal ingesting and depositing S in tail hair.

RESULTS

The best fitting regression model of δ S in tail hair and an individual- position on the δ S isoscape is generated assuming an average time delay of 78 days between ingestion and detection in tail hair. This suggests that sulfur may undergo multiple metabolic transitions before being deposited in tissue.

CONCLUSION

Our findings help to unravel the underlying complexities associated with sulfur metabolism and are broadly consistent with results from other species. These findings will help to inform research aiming to apply the variation of δ S in inert biological material for geolocation or understanding dietary changes, especially for fast moving migratory ungulates such as wildebeest.

摘要

原理

代谢和饮食质量在确定动物摄入元素与在组织中沉积相关同位素信号之间的延迟机制方面起着重要作用。虽然许多同位素混合模型假设动物组织中的饮食会立即反映出来,但这种情况很少见。在这里,我们使用从塞伦盖蒂生态系统中 GPS 项圈的角马的数据来测量摄入 S 与其在尾毛中检测到之间的滞后时间。

方法

我们使用来自塞伦盖蒂生态系统的 GPS 项圈的蓝角马的 δ S 数据的时滞回归分析,并结合 δ S 同位素景观数据来估计动物摄入和在尾毛中沉积 S 之间的滞后时间。

结果

假设在尾毛中摄入和检测之间存在平均 78 天的时间延迟,最佳拟合的尾毛 δ S 和个体在 δ S 同位素景观上的位置的回归模型表明,硫可能在沉积在组织之前经历多次代谢转变。

结论

我们的发现有助于揭示与硫代谢相关的潜在复杂性,并且与其他物种的结果基本一致。这些发现将有助于为应用惰性生物材料中的 δ S 进行地理定位或了解饮食变化的研究提供信息,特别是对于像角马这样快速移动的迁徙有蹄类动物。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/db4a/10909487/703cb0fe154e/RCM-38-e9674-g001.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/db4a/10909487/b1e27fb8ff1c/RCM-38-e9674-g003.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/db4a/10909487/40866d406819/RCM-38-e9674-g002.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/db4a/10909487/703cb0fe154e/RCM-38-e9674-g001.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/db4a/10909487/b1e27fb8ff1c/RCM-38-e9674-g003.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/db4a/10909487/40866d406819/RCM-38-e9674-g002.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/db4a/10909487/703cb0fe154e/RCM-38-e9674-g001.jpg

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