珊瑚礁危机的人口动态:人口增长的后果。

3区 生物学 Q1 Agricultural and Biological Sciences Advances in Marine Biology Pub Date : 2020-01-01 Epub Date: 2020-08-20 DOI:10.1016/bs.amb.2020.07.004
Bernhard M Riegl, Peter W Glynn
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引用次数: 5

摘要

人口密度与环境退化之间存在着明确的联系,无论是在近场(局部影响)还是远场(远距离连接造成的影响)。最广泛的预测是,到2100年,人口将达到90亿至110亿,届时除了少数几个国家外,所有国家都将发生人口结构转型。人口增长最快的是热带地区,那里的珊瑚礁面临着密集的人口和随之而来的大量使用。在大多数国家,超过50%的人口将城市化,但农村人口的增长和城市中心对食物的需求不会减轻对珊瑚礁资源的压力。水产养殖可以缓解一些捕捞压力,但仍然利用珊瑚礁表面,也具有破坏性。沿海人口的密集和财富的增加将导致海岸建设导致珊瑚礁退化。内陆人口的密集将导致更多的径流和淤积。人类扰动的影响可以用超种群理论来探讨,因为它们转化为斑块死亡率的增加和斑块定植(=再生)的减少。所有这些变化将导致栖息地总体上定居的斑块减少,因此活的珊瑚礁也会减少。如果包括救援效应,系统动力学的分岔将允许许多空白斑块,并且根据相对于稳定和不稳定平衡的系统状态,部分空白的系统可能在更高的斑块占用率下趋于稳定或灭绝。因此,除非扰动历史是已知的,否则可能很难评估系统轨迹的方向,从而使管理变得困难。如果栖息地因破坏而减少,救援效果就变得更加重要,因为灭绝债务是由分散能力较弱的有效竞争者积累起来的。很容易看到的人口动态趋势与完善和经过验证的生态理论相结合,为珊瑚礁面临的生存挑战的严重性提供了一个清晰、直观、可量化的指导。管理方面的挑战和所需的行动可以清楚地显示出来,与经常声称的相反,关于人类数量的持续增加对珊瑚礁构成的严重威胁,科学上并不存在含糊不清的情况。
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Population dynamics of the reef crisis: Consequences of the growing human population.

An unequivocal link exists between human population density and environmental degradation, both in the near field (local impacts) and far field (impacts due to teleconnections). Human population is most widely predicted to reach 9-11 billion by 2100, when the demographic transition is expected in all but a handful of countries. Strongest population growth is in the tropics, where coral reefs face dense human population and concomitant heavy usage. In most countries, >50% will be urbanized but growth of rural population and need for food in urban centres will not alleviate pressure on reef resources. Aquaculture will alleviate some fishing pressure, but still utilizes reef surface and is also destructive. Denser coastal populations and greater wealth will lead to reef degradation by coastal construction. Denser populations inland will lead to more runoff and siltation. Effects of human perturbations can be explored with metapopulation theory since they translate to increases in patch-mortality and decreases in patch-colonization (=regeneration). All such changes will result in a habitat with overall fewer settled patches, so fewer live reefs. If rescue effects are included, bifurcations in system dynamics will allow for many empty patches and, depending on system state relative to stable and unstable equilibria, a part-empty system may either trend towards stability at higher patch occupancy or extinction. Thus, unless the disturbance history is known, it may be difficult to assess the direction of system trajectory-making management difficult. If habitat is decreased by destruction, rescue effects become even more important as extinction-debt, accumulated by efficient competitors with weaker dispersal ability, is realized. Easily visible trends in human population dynamics combined with well-established and tested ecological theory give a clear, intuitive, yet quantifiable guide to the severity of survival challenges faced by coral reefs. Management challenges and required actions can be clearly shown and, contrary to frequent claims, no scientific ambiguity exists with regards to the serious threat posed to coral reefs by humankind's continued numerical increase.

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来源期刊
Advances in Marine Biology
Advances in Marine Biology MARINE & FRESHWATER BIOLOGY-
CiteScore
6.10
自引率
0.00%
发文量
6
审稿时长
12 months
期刊介绍: Advances in Marine Biology was first published in 1963 under the founding editorship of Sir Frederick S. Russell, FRS. Now edited by Charles Sheppard, the serial publishes in-depth and up-to-date reviews on a wide range of topics which will appeal to postgraduates and researchers in marine biology, fisheries science, ecology, zoology and biological oceanography. Eclectic volumes in the series are supplemented by thematic volumes on such topics as The Biology of Calanoid Copepods.
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