"Until now, we've had to look at the condition of different species and habitats individually. Having an easy-to-adopt approach that gives us a good idea of what is happening to the ecosystem as a whole -- not just a piece of it -- and anywhere on the planet, is a giant leap forward in managing marine ecosystems," said Richard Merrick, Ph.D., NOAA Fisheries director of scientific programs and chief science advisor. "It's similar to giving a doctor the ability to look at a person's whole body and treat an illness, not just its symptoms."

Scientists incorporate satellite imagery, fishery surveys, and landings data -- among other things -- to produce a visual image of the patterns in the food chain of the ecosystem. These patterns show when there is a problem. Scientists can also use the data in reverse to see how an ecosystem is recovering after a threat is reduced.

"For example, this discovery gives us an easier way to understand how an ecosystem is recovering after an oil spill," said Jason Link, lead author of the study and NOAA Fisheries senior scientist for ecosystem management. "The information will be especially useful as climate change and ocean acidification continue to alter our environment in unpredictable ways."

The study is published in Trends in Ecology and Evolution. Although a NOAA Fisheries scientist is the lead author, this study is a collaborative effort by a team of researchers representing institutions in six different countries. For more on ecosystem based fisheries management, please visit the NOAA Fisheries website on this topic.

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Story Source: 

The above post is reprinted from materials provided by NOAA Headquarters. Note: Materials may be edited for content and length. 

Journal Reference:

1. Jason S. Link, Fabio Pranovi, Simone Libralato, Marta Coll, Villy Christensen, Cosimo Solidoro, Elizabeth A. Fulton. Emergent Properties Delineate Marine Ecosystem Perturbation and Recovery. Trends in Ecology & Evolution, 2015; 30 (11): 649 DOI:10.1016/j.tree.2015.08.011