SOARCE ARCHIVE

Old Bay with a new spice: a new buoy helps monitor how carbon dioxide is changing the Chesapeake Bay

Old Bay with a new spice: a new buoy helps monitor how carbon dioxide is changing the Chesapeake Bay

NOAA Ocean Acidification Program

A new Ocean Acidification monitoring buoy was deployed on April 5, 2018 in the largest United States estuary, the Chesapeake Bay. This is the first long-term ocean acidification monitoring buoy and it will be deployed at the mouth of the Chesapeake Bay. The buoy will measure carbon parameters in the estuary, which is particularly vulnerable to changes in carbonate chemistry. These changes could impact economically valuable resources for Bay communities, such as oysters. The data from this buoy will supply models with the information needed to recognize potential areas of vulnerability and what future chemical parameters may look like in the bay, while also expanding the National Ocean Acidification Observing Network. It will also help researchers at NOAA PMEL, University of Delaware and University of Maryland differentiate between human-caused and natural variations in carbonate chemistry in the estuary.


Friday, April 6, 2018

New tool helps oyster growers prepare for changing ocean chemistry

NOAA Research

For Bill Mook, coastal acidification is one thing his oyster hatchery cannot afford to ignore.

Mook Sea Farm depends on seawater from the Gulf of Maine pumped into a Quonset hut-style building where tiny oysters are grown in tanks. Mook sells these tiny oysters to other oyster farmers or transfers them to his oyster farm on the Damariscotta River where they grow large enough to sell to restaurants and markets on the East Coast.

Tuesday, September 6, 2016

SCIENTISTS GATHER FROM AROUND THE WORLD TO DEVELOP A GLOBAL OCEAN ACIDIFICATION OBSERVING NETWORK

NOAA Ocean Acidification Program

NOAA, academic and international scientific experts are gathering July 24 -26, to further develop the Global Ocean Acidification Network (GOA-ON). The purpose of this network is to facilitate international coordination in order to compare and integrate observational data collection specific to ocean acidification across the globe. This group is designing a global standard for measuring and identifying ocean acidification and is important for establishing a global understanding of ocean acidification including its impacts on ocean life as well as humans. This network will ensure data quality and comparability, facilitated by a structured system based on common standards. It will also assist policy-making through research products and model-based projections of future potential impacts of ocean acidification. 

Wednesday, July 24, 2013
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