CSUN professor helps efforts to study ocean acidification in California

Kerry Nickols, assistant professor in the Department of Biology, is part of a research team that evaluated strategies to tackle ocean acidification. Photo courtesy of Kerry Nickols.

Kerry Nickols, assistant professor in the Department of Biology, is part of a research team that evaluated strategies to tackle ocean acidification. Photo courtesy of Kerry Nickols.

For Kerry Nickols, assistant professor in the Department of Biology at California State University, Northridge, it is important to conduct research that can have an impact on policy.

With that goal in mind, Nickols is participating in a working group of 10 researchers convened by the California Ocean Protection Council and the California Ocean Science Trust, to evaluate strategies to tackle ocean acidification, a serious threat to California waters.

“About 30 percent of the carbon dioxide emitted by humans is absorbed by the ocean,” said Nickols, who joined the team in 2017. “That’s really important, because the climate would change even faster if that didn’t happen. But it’s also changing the chemistry of the ocean.”

The advisory team gathered current scientific research about the roles kelp and sea grass play in combatting ocean acidification and created a report that provides environmental policymakers guidance on future actions. It also identifies knowledge gaps.

“It’s a really exciting time in California right now, because legislators want to know about climate change and want to do something about it,” Nickols said.

The California Ocean Protection Council and the Ocean Science Trust published the study at the end of January. In February, their findings were presented at a legislative hearing of the state Assembly Select Committee on Coastal Protection and Access to Natural Resources.

A key finding of the study is that sea grass and kelp have the potential to help reduce ocean acidification. The sea plants use photosynthesis to remove carbon dioxide from water, thereby increasing pH and lowering acidity.

“It’s roughly the same idea as people planting trees to reduce their carbon footprint,” Nickols said.

However, the researchers found that additional factors, such as the time of year and local conditions, can impair the effect. In areas with a strong current, the water is not sitting long enough at the same spot for the sea grass and kelp to change its chemistry, Nickols said.

“In addition, sea grass and kelp only grow in areas that are close to the shore,” she said. “The water has to be shallow enough for them to get sufficient sunlight to do photosynthesis. It’s a pretty narrow range of areas where these habitats are even found.”

According to the study, investing in the protection and restoration of submerged aquatic vegetation is a “no-regrets” strategy, because in addition to potentially keeping the pH level of water high— which translates to low acidification — seagrass beds and kelp forests are important habitats for various fish species and marine life, such as oysters and abalone. The 2018 Northern California recreational abalone fishing season was cancelled by the California Fish and Game Commission, due to adverse effects the abalone suffered from current environmental conditions, such as warm water.

Increased ocean acidification causes several problems for marine life, Nickols said.

“The ocean water can become so acidic that it dissolves the shells of marine organisms or keeps them from developing properly,” Nickols said.

The consequences of acidification would be especially measurable in aquacultures, such as oyster farms, Nickols noted.

“We really need to be creative and proactive about how we are going to adapt to climate change and mitigate the outcomes of it,” Nickols said.

Carmen Ramos Chandler, CSUN Today, 10 April 2018. Article.

0 Responses to “CSUN professor helps efforts to study ocean acidification in California”



  1. Leave a Comment

Leave a Reply

Fill in your details below or click an icon to log in:

WordPress.com Logo

You are commenting using your WordPress.com account. Log Out /  Change )

Google+ photo

You are commenting using your Google+ account. Log Out /  Change )

Twitter picture

You are commenting using your Twitter account. Log Out /  Change )

Facebook photo

You are commenting using your Facebook account. Log Out /  Change )

w

Connecting to %s




Subscribe to the RSS feed

Powered by FeedBurner

Follow AnneMarin on Twitter

Blog Stats

  • 1,082,959 hits

OA-ICC HIGHLIGHTS

Ocean acidification in the IPCC AR5 WG II

OUP book