eDNA 状态和介质影响南部非洲水潭半自然系统中的 DNA 降解模式

Q1 Agricultural and Biological Sciences
Irmgard Sedlmayr, Tamara Schenekar
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引用次数: 0

摘要

环境 DNA(eDNA)已发展成为生态学家工具包中的宝贵财富,可在各种生态系统中进行省时、省钱的生物多样性评估。由于 eDNA 可以从多种环境基质中分离出来,因此其在这些介质中的存留时间对于推断物种的存在具有决定性的意义。我们首次描述了南非热带稀树草原系统中半自然水潭的水和沉积物样本中 eDNA 的持久性,以便更好地了解 eDNA 在这些水体中的衰变情况。通过中观实验,我们跟踪了两种不同 DNA 状态(细胞外和膜结合)、两个不同季节(潮湿和干燥)以及两种不同基质(地表水和沉积物)中 eDNA 的衰变情况。细胞外 DNA 以一阶指数衰减方式快速降解,而膜结合 DNA 的衰减速度较慢,且衰减模式更为复杂,包括最初的减少和随后测得的 DNA 浓度的增加。我们将后者归因于引入环境 24-48 小时后的细胞解离和细胞裂解。旱季膜结合 DNA 捕获的随机性较高,这突出表明,在 eDNA 分布可能更分散的自然系统中,需要加大采样力度。此外,我们观察到沉积物中的 eDNA 比水样中的 eDNA 持久性更长,这可能是由于沉积物对核酸酶有更好的保护作用。我们无法发现环境参数对 eDNA 衰减的任何影响,因此需要开展进一步研究,以更好地了解这些水体中的 eDNA 动态,从而在这些系统中充分发挥基于 eDNA 的生物评估潜力。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

eDNA State and Medium Affect DNA Degradation Patterns in Seminatural Systems of Southern African Waterholes

eDNA State and Medium Affect DNA Degradation Patterns in Seminatural Systems of Southern African Waterholes

Environmental DNA (eDNA) has evolved into a valuable asset of the ecologists' toolkit, enabling time- and cost-efficient biodiversity assessments in a wide variety of ecosystems. Since eDNA can be isolated from a broad range of environmental substrates, its persistence times in those media are of decisive importance for drawing inferences about species presence. For the first time, we characterize eDNA persistence in water and sediment samples of seminatural waterholes in a savanna system in South Africa to gain a better understanding of eDNA decay in these waterbodies. Using mesocosm experiments, we tracked eDNA decay in two different DNA states (extracellular and membrane bound), during two different seasons (wet and dry), and from two different substrates (surface water and sediment). Extracellular DNA degraded rapidly in a first-order exponential decay fashion and membrane-bound DNA exhibited a slower decline with more intricate patterns, involving initial reduction followed by a subsequent increase in measured DNA concentrations. The latter we attribute to cell disassociation and cell lysis at 24–48 h after introduction into the environment. Higher stochasticity of membrane-bound DNA capture in the dry season highlights the need for higher sampling efforts in natural systems in which eDNA is presumably more patchily distributed. Additionally, we observed longer eDNA persistence in sediments than in water samples, presumably due to better protection from nucleases. We could not reveal any effects of environmental parameters on eDNA decay, emphasizing that further research is needed to better understand eDNA dynamics in those waterbodies in order to exploit their full potential for eDNA-based bioassessments in those systems.

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来源期刊
Environmental DNA
Environmental DNA Agricultural and Biological Sciences-Ecology, Evolution, Behavior and Systematics
CiteScore
11.00
自引率
0.00%
发文量
99
审稿时长
16 weeks
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