Soil Organic Carbon Storage in Restored Salt Marshes in Huntington Beach, California

Jason K. Keller; Kimberly K. Takagi; Morgan E. Brown; Kellie N. Stump; Chelsea G. Takahashi; Woojin Joo; Kimberlee L. Au; Caitlin C. Calhoun; Rajesh K. Chundu; Kanani Hokutan; Jessica M. Mosolf; Kylle Roy

doi:10.3160/0038-3872-111.2.153

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1 August 2012 Soil Organic Carbon Storage in Restored Salt Marshes in Huntington Beach, California

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Bulletin, Southern California Academy of Sciences, 111(2):153-161 (2012). https://doi.org/10.3160/0038-3872-111.2.153

Abstract

There is a growing interest in managing wetland restoration and conservation projects to maximize carbon sequestration. We measured soil organic carbon storage and methane flux from two southern California salt marshes which had been restored for 2 and 22 years. We hypothesized that organic carbon would accumulate following restoration and that methane flux would be negligible in both sites. While methane flux was minimal, soil organic carbon content was generally higher in the more recently restored site. Although there is a potential for carbon sequestration in salt marshes, tracking this process through time may be complicated by initial site conditions.

Southern California Academy of Sciences

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Jason K. Keller, Kimberly K. Takagi, Morgan E. Brown, Kellie N. Stump, Chelsea G. Takahashi, Woojin Joo, Kimberlee L. Au, Caitlin C. Calhoun, Rajesh K. Chundu, Kanani Hokutan, Jessica M. Mosolf, and Kylle Roy "Soil Organic Carbon Storage in Restored Salt Marshes in Huntington Beach, California," Bulletin, Southern California Academy of Sciences 111(2), 153-161, (1 August 2012). https://doi.org/10.3160/0038-3872-111.2.153

Published: 1 August 2012

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