物种更少,但现有个体更多:基于土耳其马尔马拉海底栖动物物种组成和环境变量的长期数据检验假设的“悲观条件规则”

Artuz Ml, Artuz Ob, M. Sakınç, B. Yalcin, Erdogan Be
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引用次数: 3

摘要

本研究的目的是试图证明“当物种多样性减少时,环境中幸存的单位成员会增加”的假设,我们将其命名为马尔马拉海尺度上的“悲观条件规则”。为了证明“负极条件规则”的假设,对2006-2012年7年间604个底栖和海洋学站点的观测数据进行了分析和比较,并利用结果显示了经典生物描述因子(如物种数量、个体数量、丰富度指数、优势度指数、Shannon/Menhinick多样性)与环境变量(如溶解氧、温度、盐度、pH)和深度之间的关系。采用多元协方差分析和多元线性回归对数据进行统计分析。底栖生物群落指数与水质变量之间的相关性表明,底栖生物群落多样性普遍受到影响。除此之外,很明显,马尔马拉海底栖生物栖息地的变化不能用单一因素来解释,比如不受控制的过度捕捞和邻近相连海域的循环变化,或者是由生物相互作用而不是由水质驱动的。根据底栖生物渔获量的样本组成和相关频率值,观察到个体数量相对增加。基本污染参数与本工作长期数据的社区指数值之间的相关性也表明了这一点。马尔马拉海下层独特的地中海起源结构所形成的恒定环境的测量值与相关生物参数在完全采样期间呈现出一致的离散。然而,与此相反,物种数量的值正好相反。在本研究中,关于底栖生物捕获量的长期数据,悲观条件规则在马尔马拉海特别明显。此外,本文还报告了马尔马拉海底栖生物渔获物的种类组成,以评估这些群落的状况以及这些群落与污染现象的关系。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Fewer Species but More Existing Individuals: Testing the Hypothesis ‘Pessimum Conditions Rule’ Based on Long-Term Data of Species Composition of Benthic Fauna and Environmental Variables in the Sea of Marmara, Turkey
The aim of this study is to try to prove the hypothesis that “When species diversity reduced, the survived unit members in the environment would be increased”, which named by us as “Pessimum conditions rule” in the scale of the Sea of Marmara. To prove the hypothesis “Pessimum conditions rule”, data from 604 observations both of benthic and oceanographically stations gathered in a 7-year period (2006-2012) were analyzed and compared, and the results used to show the relationship between classic biotic descriptors (e.g. number of species, number of individuals, richness index, dominance index, Shannon/Menhinick diversities) and environmental variables (e.g. Dissolved Oxygen, temperature, Salinity, pH) and depth. Multiple analysis of covariance and multiple linear regressions were used for the statistical analysis of the data. Correlations between benthic community indices and water quality variables showed that generally might affect community diversity. Besides this, it is clear that variation within benthic habitats in the Sea of Marmara cannot be explained by a single factor, such as uncontrolled overfishing and the revolving changes in the adjacent connected seas or driven by biotic interactions rather than by the water quality. According to the sample composition of benthic catches and related frequency values, a relative increase in the number of individuals was observed. This is also apparent by the correlation between basic pollution parameters and the community index values regarding long-term data of the present work. The measured values of the constant environment, created due to the unique structure of the Mediterranean originated lower layer of the Sea of Marmara, and correlated biotic parameters were showing a coherent dispersion in the completely sampling period. However, contrary to this, the values of the number of species were exactly the opposite. In the present study, pessimum conditions rule has been especially distinctive in the Sea of Marmara regarding the long-term data of the benthic catches. Also, this work report on species composition of the benthic catches in the Sea of Marmara for an assessment of the status of these communities and relation these communities with pollution phenomenon.
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