Determination of the growth rate and elimination of certain phytoplankton species and populations in the Sevastopol Bay (Black Sea)

Q4 Environmental Science Marine Biological Journal Pub Date : 2019-09-30 DOI:10.21072/mbj.2019.04.3.08
V. D. Tchmyr, R. I. Lee, M. I. Senicheva
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Abstract

The relevance of the study is determined by the key role of phytoplankton in the functioning of marine ecosystems, since unicellular algae carry out the primary production of organic matter in photosynthesis and form the first trophic link in the food chain. The tasks of the work are to determine the values of the net (apparent) growth rate of phytoplankton as a whole and of its constituent elements, including populations of certain species, and to study the possibility of estimating the rate of their actual growth and consumption based on regular short-period determinations of phytoplankton abundance and biomass in natural communities. For the determinations, we used both the previously obtained data of the decadal monitoring of the phytoplankton state in the coastal zone and the results of recent experiments. The decadal determinations performed during 2007 near the mouth of the Sevastopol Bay included measurements of phytoplankton abundance and biomass, as well as of chlorophyll a concentrations at intervals of several days, which made it possible to calculate the net specific biomass growth rate (apparent growth, k) according to its changes identified during this period. By comparing the abundance of certain species during short-period determinations, 29 values of the apparent growth were obtained for 9 mass species. The apparent growth, being the difference between actual growth and consumption, can be used to determine these values. Patterns linking the values of the apparent and actual growth of algae cells with their sizes were found in the experiments conducted by the dilution method. In our experiments, we adapted classical dilution method for the study of total phytoplankton to determine the functional parameters of certain species, which made it possible to find the linking patterns. Using the found patterns, we obtained 22 values of growth rate µ and consumption rate m for 7 mass phytoplankton species at the mouth of the Sevastopol Bay. Studies show that the growth rate of certain species of phytoplankton, whose cell volume is less then 1000 µm³, can reach values over 1 day−1. For algae with the cell volume exceeding 1500 µm³, the values of µ approach the values of k, and the values of m approach zero. For this group, the actual growth rate µ is taken to be equal to the apparent growth rate k, and the rate of consumption m is taken to be zero. In fact, in the natural population, small species are predominantly consumed in the upper illuminated layer, while the larger ones sink to the bottom or into deep horizons. This means that primarily phytoplankton populations with small cells are consumed, while populations with larger cells are not consumed. However, this conclusion is not consistent with the rates of apparent growth measured in situ, which include both positive and negative values for all populations, regardless of cell size. This contradiction is explained by the fact, that in the experiment, large cells dying off and sinking to the bottom of the vessel are taken into account on a par with living cells, and it hides the effect of elimination.
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塞瓦斯托波尔湾(黑海)某些浮游植物种类和种群的生长速度和灭绝的测定
这项研究的相关性是由浮游植物在海洋生态系统功能中的关键作用决定的,因为单细胞藻类在光合作用中进行有机物的初级生产,并形成食物链中的第一个营养环节。这项工作的任务是确定整个浮游植物及其组成元素(包括某些物种的种群)的净(表观)生长率的值,并研究基于对自然群落中浮游植物丰度和生物量的定期短期测定来估计其实际生长率和消耗量的可能性。在确定过程中,我们使用了以前获得的沿海地区浮游植物状态的年代际监测数据和最近的实验结果。2007年在塞瓦斯托波尔湾口附近进行的年代际测定包括测量浮游植物丰度和生物量,以及每隔几天测量叶绿素a浓度,这使得根据这一时期确定的变化计算净比生物量增长率(表观增长率,k)成为可能。通过对短期测定中某些物种的丰度进行比较,得到了9种质量物种的29个表观生长量。表观增长,即实际增长与消费之间的差异,可以用来确定这些值。在用稀释法进行的实验中,发现了藻类细胞的表观和实际生长值与其大小之间的联系模式。在实验中,我们采用传统的稀释法对浮游植物总数进行研究,以确定某些物种的功能参数,从而有可能找到联系模式。利用所发现的模式,我们得到了塞瓦斯托波尔湾河口7种浮游植物的生长速率µ和消耗速率m的22个值。研究表明,细胞体积小于1000µm³的某些种类的浮游植物的生长速度可以达到1天−1以上的值。对于细胞体积超过1500µm³的藻类,µ的值接近于k的值,m的值接近于零。对于该组,取实际增长率µ等于表观增长率k,取消耗率m为零。事实上,在自然种群中,小物种主要在上层光照层被消耗,而大物种则沉入底部或深地平线。这意味着主要浮游植物的小细胞种群被消耗,而大细胞种群不被消耗。然而,这一结论与原位测量的表观生长率不一致,其中包括所有群体的阳性和阴性值,而不考虑细胞大小。这个矛盾可以用这样一个事实来解释:在实验中,大细胞的死亡和下沉到容器的底部与活细胞一样被考虑在内,它掩盖了消除的作用。
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来源期刊
Marine Biological Journal
Marine Biological Journal Environmental Science-Ecology
CiteScore
0.90
自引率
0.00%
发文量
17
审稿时长
21 weeks
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