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Movement of plankton between tropical marine ecosystems drives 'sweet spots' for fishing

Plankton eaters play key role in transferring offshore resources to coral reef ecosystems

Date:
November 2, 2021
Source:
PLOS
Summary:
A new analysis suggests that the movement of plankton and plankton-eating fish play a central role in driving local spikes of extreme biological productivity in tropical coral reefs, creating 'sweet spots' of abundant fish.
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A new analysis suggests that the movement of plankton and plankton-eating fish play a central role in driving local spikes of extreme biological productivity in tropical coral reefs, creating "sweet spots" of abundant fish. Renato Morais of James Cook University in Townsville, Australia, and colleagues present these findings in a study publishing November 2nd in the open-access journal PLOS Biology.

Although some ecosystems are limited by their intrinsic productivity (from photosynthesis, for example), previous research has shown that mobile resources like plankton can serve as vectors that transfer energy and nutrients from offshore ecosystems to coral reef ecosystems. Such transfers of resources between ecosystems are known as spatial subsidies, and they enable ecosystems to surpass the limits of their intrinsic capabilities for biological productivity, resulting in more abundant life. However, the extent to which the movement of plankton and plankton-eating fish boost abundance in tropical marine ecosystems has been unclear.

To help clarify and quantify this role, Morais and colleagues integrated and analyzed extensive data from visual fish counts. One dataset covered the tropical waters of the Indian Ocean and much of the Pacific, while the other fish count data came from three specific tropical locations that were representative of the diversity of coral reef ecosystems found in the larger dataset.

The analysis revealed that plankton-eating fish do indeed play a major, widespread role as vectors of spatial subsidies to tropical coral reefs. By feeding on offshore plankton, they deliver extra resources to reef ecosystems and thereby drive local periods of extreme biological productivity -- including for their own predators. In these "sweet spots," plankton-eating fish are responsible for more than 50 percent of the total fish production, and people might find conditions there optimal for bountiful fishing.

The researchers note that their findings hold particular significance for the future of tropical reef fisheries. Coral reefs continue to degrade, and offshore productivity is expected to decline, so sweet spots that concentrate these dwindling resources may increase in importance for fishers.

Morais adds, "How do tropical oceans sustain high production and intense coastal fisheries despite occurring in nutrient-poor oceans? Spatial subsidies vectored by planktivorous fishes dramatically increase local reef fish biomass production, creating 'sweet spots' of fish concentration. By harvesting oceanic productivity, planktivorous fishes bypass spatial constraints imposed by local primary productivity, creating 'oases' of tropical marine biomass production."


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Materials provided by PLOS. Note: Content may be edited for style and length.


Journal Reference:

  1. Renato A. Morais, Alexandre C. Siqueira, Patrick F. Smallhorn-West, David R. Bellwood. Spatial subsidies drive sweet spots of tropical marine biomass production. PLOS Biology, 2021; 19 (11): e3001435 DOI: 10.1371/journal.pbio.3001435

Cite This Page:

PLOS. "Movement of plankton between tropical marine ecosystems drives 'sweet spots' for fishing." ScienceDaily. ScienceDaily, 2 November 2021. <www.sciencedaily.com/releases/2021/11/211102140657.htm>.
PLOS. (2021, November 2). Movement of plankton between tropical marine ecosystems drives 'sweet spots' for fishing. ScienceDaily. Retrieved December 21, 2024 from www.sciencedaily.com/releases/2021/11/211102140657.htm
PLOS. "Movement of plankton between tropical marine ecosystems drives 'sweet spots' for fishing." ScienceDaily. www.sciencedaily.com/releases/2021/11/211102140657.htm (accessed December 21, 2024).

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