Elevated Water Temperature and Acidity Boost Growth of Key Sea Star Species
The study is one of the first to look at the impact of ocean acidification on marine invertebrates that don’t have a large calcified skeleton or external shell, and challenges current assumptions about the potential impact of climate change on marine species.
The findings were published online this week in the Proceedings of the National Academy of Sciences.
In the lab, UBC researchers led by Rebecca Gooding manipulated water temperatures and CO2 levels in sea water tanks containing juvenile Purple Ochre Sea Stars (Pisaster ochraceus), a species found along much of North America’s Pacific Coast.
An increase in temperature of just three degrees and doubling of CO2 concentrations enabled the sea stars to grow almost twice as fast as they normally would over a period of ten weeks.
“This means the sea stars could potentially reach adulthood in about half the time it would typically take–and consume more mussels, their main diet, at much higher rates,” says Gooding, a PhD student in the Department of Zoology working under the supervision of UBC Assistant Professor Christopher Harley.
At the end of the period, sea stars reared in warmer, more acidic waters weighed 17 grams, compared to control sea stars that weighed an average of only 11 grams. In contrast, existing studies suggest that an increase in temperature and CO2 levels hinder growth in most species studied so far—usually more calcified species.
“This complicates current assumptions. It looks like increased CO2 may not have negative effects on all marine invertebrates, suggesting that predicting the impact of climate change should consider how different organisms respond to changing climatic variables.”
The Purple Ochre Sea Star is a cold-water species of sea star that can be found anywhere from Alaska to Baja California. It is most commonly found in the North Eastern Pacific. They can actually range in color from purple to orange to brown and have five rays that can range in length from 10 to 25cm.
They are considered a keystone species—a species that exerts a disproportionate effect on their ecosystem by preying on other animals.
Media Contact
More Information:
http://www.ubc.caAll latest news from the category: Ecology, The Environment and Conservation
This complex theme deals primarily with interactions between organisms and the environmental factors that impact them, but to a greater extent between individual inanimate environmental factors.
innovations-report offers informative reports and articles on topics such as climate protection, landscape conservation, ecological systems, wildlife and nature parks and ecosystem efficiency and balance.
Newest articles
A universal framework for spatial biology
SpatialData is a freely accessible tool to unify and integrate data from different omics technologies accounting for spatial information, which can provide holistic insights into health and disease. Biological processes…
How complex biological processes arise
A $20 million grant from the U.S. National Science Foundation (NSF) will support the establishment and operation of the National Synthesis Center for Emergence in the Molecular and Cellular Sciences (NCEMS) at…
Airborne single-photon lidar system achieves high-resolution 3D imaging
Compact, low-power system opens doors for photon-efficient drone and satellite-based environmental monitoring and mapping. Researchers have developed a compact and lightweight single-photon airborne lidar system that can acquire high-resolution 3D…
