光合生物的隐巷效应。

Q2 Agricultural and Biological Sciences Communicative and Integrative Biology Pub Date : 2020-08-30 DOI:10.1080/19420889.2020.1800999
Hiroshi Ohkawa, Chiharu Takatsuka, Tomonori Kawano
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引用次数: 1

摘要

在生态学和种群生物学中,logistic方程被广泛应用于生物种群的模拟。通过将logistic模型与低密度效应Allee效应相结合,提出了几种数学表达式的变体。上半部分致力于建立具有Allee阈值的高柔性密度效应模型的新方程。尽管有理论研究,但在无性繁殖的微生物中很少观察到狭缝效应。根据开发生态系统假说,植物对Allee效应不敏感。综上所述,需要了解光合微生物中存在的低密度效应,以重新定义强调光合生物是食物链基础的生态学理论。因此,在本文的下半部分,我们报道了光自养生物,即绿色草履虫和蓝藻中可能存在的Allee效应。在光自养和光异养条件下,光监测绿草履虫的生长受alley样弱低密度效应的调控。证实野生型蓝藻(Synechocystis sp. Strain PCC6803)对低密度效应不敏感,与我们的经验知识一致。相比之下,PCC6803的一个突变系被证明对典型的Allee的低密度效应敏感(即,该系细胞在低细胞密度下无法繁殖,而细胞在相对较高的接种密度下开始对数生长)。这是首次观察到自养生物的单基因突变改变了对Allee效应的敏感性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

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Hidden Allee effect in photosynthetic organisms.

In ecology and population biology, logistic equation is widely applied for simulating the population of organisms. By combining the logistic model with the low-density effect called Allee effect, several variations of mathematical expressions have been proposed. The upper half of the work was dedicated to establish a novel equation for highly flexible density effect model with Allee threshold. Allee effect has been rarely observed in microorganisms with asexual reproduction despite of theoretical studies. According to the exploitation ecosystem hypotheses, plants are believed to be insensitive to Allee effect. Taken together, knowledge on the existence of low-density effect in photosynthetic microorganisms is required for redefining the ecological theories emphasizing the photosynthetic organisms as the basis for food chains. Therefore, in the lower half of the present article, we report on the possible Allee effect in photo-autotrophic organisms, namely, green paramecia, and cyanobacteria. Optically monitored growth of green paramecia was shown to be regulated by Allee-like weak low-density effect under photo-autotrophic and photo-heterotrophic conditions. Insensitiveness of wild type cyanobacteria (Synechocystis sp. Strain PCC6803) to low-density effect was confirmed, as consistent with our empirical knowledge. In contrast, a mutant line of PCC6803 impaired with a photosynthesis-related pxcA gene was shown to be sensitive to typical Allee's low-density effect (i.e. this line of cells failed to propagate at low cellular density while cells start logarithmic growth at relatively higher inoculating density). This is the first observation that single-gene mutation in an autotrophic organism alters the sensitivity to Allee effect.

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来源期刊
Communicative and Integrative Biology
Communicative and Integrative Biology Agricultural and Biological Sciences-Agricultural and Biological Sciences (all)
CiteScore
3.50
自引率
0.00%
发文量
22
审稿时长
6 weeks
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