The research was published Nov. 10 in the journal Frontiers in Marine Science.
“Not only are we seeing more seagrass wasting disease outbreaks, we’re seeing a severe impact within the vital nutrient stores of these plants in the roots – so they become compromised late in the growing season, setting them up for a harder winter,” said co-lead author Olivia Graham, a doctoral student in the field of ecology and evolutionary biology.
The other lead author is Lillian R. Aoki, a former postdoctoral researcher in the Department of Ecology and Evolutionary Biology, in the College of Agriculture and Life Sciences.
Eelgrass (Zostera marina) normally thrives in the San Juan Islands, Washington, on the Salish Sea along the Canadian border. In typical scenarios, Graham describes the seagrass meadow environment as bountiful underwater rainforests, which clean the waters and support herring, salmon, perch, clams, mussels and oysters. Nearby, orca whales feast on Chinook salmon – the largest of the Pacific salmon – which live in these tidal grasslands.
Seagrass wasting disease has been present for years, thanks to the warming waters of climate change, which strengthens the plant’s disease nemesis Labyrinthula zosterae. This paper confirms that below the muddy beds, the plant’s roots are compromised.
In their research, Graham and Aoki marked hundreds of plants at low tide and followed the meadow’s fate over several weeks. This “mark and recapture” method showed that seagrass with disease lesions grew more slowly and produced less storage sugars than their healthy counterparts.
“This answers a long-standing question about whether this disease does actual damage,” said senior author Drew Harvell, professor emeritus in ecology and evolutionary biology, in CALS. “Unfortunately, it is a resounding ‘yes.’”
Eelgrass plants spread vegetatively, Harvell said, noting that seagrass roots have huge systems where carbohydrates and sugars get manufactured and stored, to expand their own lush networks.
“This paper really nails it,” Harvell said. “Plants were tagged in the natural meadow and each one followed through time. We learned that the lesioned plants had reduced starch reserves and grew more slowly, so now we can say that the wasting disease is even bigger than most thought – and the harm goes well beyond the lesions.”
In addition to Graham, Aoki and Harvell, researchers on this paper, “Effects of Seagrass Wasting Disease on Eelgrass Growth and Belowground Sugar in Natural Meadows,” were Carla P. Gomes, professor in the Cornell Ann S. Bowers College of Computing and Information Science and the director of the Institute for Computational Sustainability; Brendan Rappazzo, doctoral student in computer science; Sukanya Dayal ’19; Tiffany Stephens, Seagrove Kelp Co., Ketchikan, Alaska; and Joshua Stokes, undergraduate student at Southeast Missouri State University, Cape Girardeau, Missouri. The National Science Foundation provided funding.
A related paper by the Cornell team, “Warming Sea Surface Temperatures Fuel Summer Epidemics of Eelgrass Wasting Disease,” published Nov. 25 in the Marine Ecology Progress Series, showed increasing levels of eelgrass wasting disease at the San Juan Islands, from 5% to 70% in 2013, and then increasing to 60% to 90% by 2017. Eelgrass shoot density declined by 60% between 2013 and 2015 and did not recover. Further, the work shows the disease prevalence was correlated with warmer water temperatures for the month prior to sampling. The study shows increasing levels of disease in multiples sites in 2017.
Maya Groner of the U.S. Geological Survey Western Fisheries Research Center, Seattle, led the study; Harvell and Gomes served as senior authors. The authors also included Morgan Eisenlord, doctoral student in ecology and evolutionary biology; Graham, Rappazzo, as well as several former CORALS Program, the Cornell Ocean Research Apprenticeship for Lynch Scholars (CALS) students, who are Reyn M. Yoshioki ’14, the University of Oregon; Evan A. Fiorenza ’17, University of California, Irvine; Phoebe D. Dawkins ’16, University of California, Irvine; Miranda Winningham ’17, marine biologist; Alex Vompe ’19, Oregon State University; and Natalie D. Rivlin ’13, at the University of British Columbia.
We openly share valuable knowledge. Often through email.
Sign up for more insights, discoveries and solutions.