Predator-permanence hypothesis in time: Community dynamics in a seasonally flooded wetland

IF 1.7 4区 环境科学与生态学 Q3 ECOLOGY Freshwater Science Pub Date : 2022-08-01 DOI:10.1086/721960
Clifton B Ruehl, M. Pintar, J. Trexler
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Abstract

The predator-permanence hypothesis predicts that as hydroperiod increases in lentic ecosystems, biotic interactions—mainly predation—replace physical factors like drying as the main determinant of community structure and population dynamics. We propose that the same transition occurs over time in seasonally flooded ecosystems that are connected to permanent water bodies. To test for evidence of successional changes that are similar to spatial changes in the relative importance of drying and predation, we used a 12-y time series of snail density, predator density, and water depth at 4 sites arranged along a nutrient gradient in a subtropical, seasonally flooded wetland, the Florida Everglades, USA. The rate of change in snail population size was negatively correlated with their density at all 4 sites, suggesting that density-dependent factors such as resource limitation regulate snail dynamics. The strength of the relationship varied among sites such that when water depth changes were less important, snail population size was more important in predicting changes in snail population size. At the site that consistently had the greatest snail density, crayfish density negatively affected the rate of snail population change, suggesting that crayfish predation may limit snail population growth in areas with more or higher-quality resources that support larger snail populations. Tethering studies were also conducted, which revealed higher snail mortality in the wet season, primarily because crushing predators (e.g., molluscivorous fishes) were more common at that time and added to the chronic mortality by entry-based predators (e.g., crayfish, which access snails through their aperture). In summary, 3 of the sites resembled temporary or permanent fishless ponds where snail populations were primarily structured by abiotic factors, intraspecific competition, and invertebrate predators (e.g., crayfish) during the wet season, whereas 1 site showed evidence that snail populations were also influenced by molluscivorous fish. This temporal change in importance of water permanence factors to fish that affected population dynamics supports the spatial pattern proposed by the predator-permanence hypothesis.
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捕食者的时间持久性假说:季节性淹没湿地中的群落动态
捕食者-持久性假说预测,随着生态系统水期的增加,生物相互作用(主要是捕食)取代了干燥等物理因素,成为群落结构和种群动态的主要决定因素。我们认为,随着时间的推移,与永久水体相连的季节性洪水生态系统也会发生同样的转变。为了验证与干旱和捕食相对重要性的空间变化相似的演替变化证据,我们在美国佛罗里达大沼泽地(Florida Everglades)的一个亚热带季节性洪水湿地中,采用了沿营养梯度排列的4个地点的12年时间序列,测量了蜗牛密度、捕食者密度和水深。钉螺种群大小变化率与钉螺密度呈负相关,表明资源限制等密度相关因素对钉螺动态有调节作用。这种关系的强度在不同的地点有所不同,当水深变化不太重要时,蜗牛种群大小在预测蜗牛种群大小变化方面更为重要。在螺密度一直最大的地点,小龙虾的密度对螺种群的变化率产生了负面影响,这表明在资源较多或质量较高的地区,小龙虾的捕食可能会限制螺种群的增长。还进行了拴绳研究,结果显示,在潮湿季节蜗牛死亡率较高,主要是因为当时粉碎捕食者(如软体动物鱼类)更为常见,并且由于以入口为基础的捕食者(如小龙虾,它们通过蜗牛的孔进入蜗牛)而增加了慢性死亡率。总而言之,3个地点类似于临时或永久无鱼池塘,其中蜗牛种群主要由非生物因素、种内竞争和无脊椎捕食者(如小龙虾)在雨季构成,而1个地点显示蜗牛种群也受到软体动物鱼类的影响。这种影响鱼类种群动态的水持久性因素重要性的时间变化支持了捕食者-持久性假说提出的空间格局。
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来源期刊
Freshwater Science
Freshwater Science ECOLOGY-MARINE & FRESHWATER BIOLOGY
CiteScore
4.10
自引率
0.00%
发文量
49
审稿时长
6-12 weeks
期刊介绍: Freshwater Science (FWS) publishes articles that advance understanding and environmental stewardship of all types of inland aquatic ecosystems (lakes, rivers, streams, reservoirs, subterranean, and estuaries) and ecosystems at the interface between aquatic and terrestrial habitats (wetlands, riparian areas, and floodplains). The journal regularly features papers on a wide range of topics, including physical, chemical, and biological properties of lentic and lotic habitats; ecosystem processes; structure and dynamics of populations, communities, and ecosystems; ecology, systematics, and genetics of freshwater organisms, from bacteria to vertebrates; linkages between freshwater and other ecosystems and between freshwater ecology and other aquatic sciences; bioassessment, conservation, and restoration; environmental management; and new or novel methods for basic or applied research.
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