Madin Elizabeth M P, Madin Joshua S, Harmer Aaron M T, Barrett Neville S, Booth David J, Caley M Julian, Cheal Alistair J, Edgar Graham J, Emslie Michael J, Gaines Steven D, Sweatman Hugh P A
Department of Biological Sciences Macquarie University Sydney NSW Australia.
School of Life Sciences University of Technology Sydney Sydney NSW Australia.
Ecol Evol. 2020 Jun 29;10(14):6954-6966. doi: 10.1002/ece3.6347. eCollection 2020 Jul.
The relative roles of top-down (consumer-driven) and bottom-up (resource-driven) forcing in exploited marine ecosystems have been much debated. Examples from a variety of marine systems of exploitation-induced, top-down trophic forcing have led to a general view that human-induced predator perturbations can disrupt entire marine food webs, yet other studies that have found no such evidence provide a counterpoint. Though evidence continues to emerge, an unresolved debate exists regarding both the relative roles of top-down versus bottom-up forcing and the capacity of human exploitation to instigate top-down, community-level effects. Using time-series data for 104 reef communities spanning tropical to temperate Australia from 1992 to 2013, we aimed to quantify relationships among long-term trophic group population density trends, latitude, and exploitation status over a continental-scale biogeographic range. Specifically, we amalgamated two long-term monitoring databases of marine community dynamics to test for significant positive or negative trends in density of each of three key trophic levels (predators, herbivores, and algae) across the entire time series at each of the 104 locations. We found that trophic control tended toward bottom-up driven in tropical systems and top-down driven in temperate systems. Further, alternating long-term population trends across multiple trophic levels (a method of identifying trophic cascades), presumably due to top-down trophic forcing, occurred in roughly fifteen percent of locations where the prerequisite significant predator trends occurred. Such alternating trophic trends were significantly more likely to occur at locations with increasing predator densities over time. Within these locations, we found a marked latitudinal gradient in the prevalence of long-term, alternating trophic group trends, from rare in the tropics (<5% of cases) to relatively common in temperate areas (~45%). Lastly, the strongest trends in predator and algal density occurred in older no-take marine reserves; however, exploitation status did not affect the likelihood of alternating long-term trophic group trends occurring. Our data suggest that the type and degree of trophic forcing in this system are likely related to one or more covariates of latitude, and that ecosystem resiliency to top-down control does not universally vary in this system based on exploitation level.
在受开发利用的海洋生态系统中,自上而下(消费者驱动)和自下而上(资源驱动)的驱动力所起的相对作用一直备受争议。来自各种海洋系统中开发利用导致的自上而下的营养级驱动力的例子,使人们形成了一种普遍观点,即人类引起的捕食者扰动会扰乱整个海洋食物网,但其他未发现此类证据的研究则提出了相反观点。尽管证据不断涌现,但关于自上而下与自下而上的驱动力的相对作用以及人类开发引发自上而下的群落水平效应的能力,仍存在未解决的争论。利用1992年至2013年澳大利亚从热带到温带的104个珊瑚礁群落的时间序列数据,我们旨在量化在大陆尺度生物地理范围内长期营养级种群密度趋势、纬度和开发利用状况之间的关系。具体而言,我们合并了两个海洋群落动态的长期监测数据库,以测试在104个地点的每个地点的整个时间序列中,三个关键营养级(捕食者、食草动物和藻类)各自密度的显著正趋势或负趋势。我们发现,营养级控制在热带系统中倾向于自下而上驱动,在温带系统中倾向于自上而下驱动。此外,在大约15%出现必要的显著捕食者趋势的地点,多个营养级出现了交替的长期种群趋势(一种识别营养级联的方法),这可能是由于自上而下的营养级驱动力所致。随着时间推移,捕食者密度增加的地点更有可能出现这种交替的营养级趋势。在这些地点内,我们发现长期交替的营养级群趋势的发生率存在明显的纬度梯度,从热带地区罕见(<5%的情况)到温带地区相对常见(约45%)。最后,捕食者和藻类密度的最强趋势出现在较老的禁捕海洋保护区;然而,开发利用状况并不影响交替的长期营养级群趋势出现的可能性。我们的数据表明,该系统中营养级驱动力的类型和程度可能与纬度的一个或多个协变量有关,并且该系统对自上而下控制的生态系统恢复力并非普遍因开发利用水平而异。
