Tuesday, December 4, 2018
Populations of native littleneck clams have declined in Puget Sound over the past several decades and are likely decreasing throughout their range from Baja California to Alaska. Meanwhile, populations of butter clams in Washington’s inland waters have increased until the past few years when several populations began showing signs of decline.
These, and other species-specific patterns in intertidal clam populations were discovered by the Swinomish Indian Tribal Community’s Fisheries Department, the Skagit River System Cooperative (SRSC), and the Washington Department of Fish and Wildlife (WDFW). The research, published on December 3rd in a special edition of Limnology and Oceanography on long-term perspectives in aquatic research, is based on 28 years of WDFW surveys. It is also the first exploration of its kind to look at large-scale environmental factors as potential drivers of hardshell clam populations in the southern Salish Sea.
To describe these population patterns, the researchers used data on three native species of clams – native littleneck clams, butter clams, and heart cockles – from 11 beaches within five Puget Sound sub-basins from 1989 to 2016. What they found was evidence of population synchrony – a phenomenon characterized by populations of a species in different locations exhibiting similar patterns. “A more comprehensive understanding of population synchrony through space and across time can improve our predictions of how species or ecosystems may respond to different types of stressors,” said Julie Barber, Swinomish senior shellfish biologist and co-lead author on the paper.
The three species of clams examined in this study are broadcast spawners, which means they release eggs and sperm into the water column. Their larvae drift in open water until they settle on a beach and bury themselves in the sand. As juvenile clams become established on the beach, they begin to grow to harvestable size, a process which can take several years depending on the species. It is during this time that the young clams are particularly vulnerable to environmental stressors such as temperature, salinity, and food availability.
Research examining the influence of large-scale environmental factors on population dynamics of fisheries resources has occurred in other species such as salmon. However, “few studies have investigated what environmental factors may play a role in the long-term population dynamics of clams,” said Casey Ruff, co-lead author and SRSC director of harvest management. “Results from our study offer intriguing insight to drivers of intertidal clam populations.”
Study authors evaluated the importance of seven potential environmental drivers of clam population dynamics and found that a large-scale oceanographic process, known as the North Pacific Gyre Oscillation (NPGO), explains some of the variability in these clam populations. Large oceanographic phenomena have the ability to influence environmental conditions important to clam populations. For example, scientists know that the NPGO closely tracks changes in microscopic algae, an important food source for clams. The authors of this study suggest that NPGO-influenced food availability may be one factor affecting larval and juvenile clams, possibly playing a role in determining the biomass of adult clams. The authors also note, however, that there are likely a mix of large and small-scale drivers that influence clam populations and more research into these factors would be valuable.
“Our research implies that one or more large-scale factors, such as disease, the NPGO, or climate change, are driving the concerning pattern of extensive biomass loss seen in native littlenecks,” Barber said. “To our knowledge, this is the first study to combine information Alaska to California and conclude that native littlenecks are likely declining across their entire range.”
“All three of these species support valuable fisheries and fill important ecological and cultural roles,” said Lorraine Loomis, fisheries manager for the Swinomish Tribe. “Studies like these allow managers to consider which environmental factors have the greatest impact on our local clam populations.” For example, these results suggest that overfishing, shoreline armoring, and non-native clam species are probably not driving the dramatic decline in native littleneck clams—insights valuable to shellfish managers.
The research also provides a unique example how studies can link traditional knowledge and western science. Loomis’ observation about declines in the culturally important native littleneck clam led the tribe’s shellfish biologists to WDFW’s filing cabinets full of data from decades of clam surveys.
“Work like this validates the importance of maintaining long-term monitoring of populations and fisheries resources, as well as the value of Washington’s unique co-management system,” explained Camille Speck, Puget Sound intertidal bivalve manager for WDFW. “As we seek to address challenges posed by a changing environment and new demands on managing important shellfish resources, collaborative work like this is crucial.”