AUTHOR=Carruthers Tim J. B. , Jones S. Beaux , Terrell Megan K. , Scheibly Jonathan F. , Player Brendan J. , Black Valerie A. , Ehrenwerth Justin R. , Biber Patrick D. , Connolly Rod M. , Crooks Steve , Curole Jason P. , Darnell Kelly M. , Dausman Alyssa M. , DeJong Allison L. , Doyle Shawn M. , Esposito Christopher R. , Friess Daniel A. , Fourqurean James W. , Georgiou Ioannis Y. , Grimsditch Gabriel D. , He Songjie , Hillmann Eva R. , Holm Guerry O. , Howard Jennifer , Jung Hoonshin , Jupiter Stacy D. , Kiskaddon Erin , Krauss Ken W. , Lavery Paul S. , Liu Bingqing , Lovelock Catherine E. , Mack Sarah K. , Macreadie Peter I. , McGlathery Karen J. , Megonigal J. Patrick , Roberts Brian J. , Settelmyer Scott , Staver Lorie W. , Stevens Hilary J. , Sutton-Grier Ariana E. , Villa Jorge A. , White John R. , Waycott Michelle TITLE=Identifying and filling critical knowledge gaps can optimize financial viability of blue carbon projects in tidal wetlands JOURNAL=Frontiers in Environmental Science VOLUME=12 YEAR=2024 URL=https://www.frontiersin.org/journals/environmental-science/articles/10.3389/fenvs.2024.1421850 DOI=10.3389/fenvs.2024.1421850 ISSN=2296-665X ABSTRACT=
One of the world’s largest “blue carbon” ecosystems, Louisiana’s tidal wetlands on the US Gulf of Mexico coast, is rapidly being lost. Louisiana’s strong legal, regulatory, and monitoring framework, developed for one of the world’s largest tidal wetland systems, provides an opportunity for a programmatic approach to blue carbon accreditation to support restoration of these ecologically and economically important tidal wetlands. Louisiana’s coastal wetlands span ∼1.4 million ha and accumulate 5.5–7.3 Tg yr−1 of blue carbon (organic carbon), ∼6%–8% of tidal marsh blue carbon accumulation globally. Louisiana has a favorable governance framework to advance blue carbon accreditation, due to centralized restoration planning, long term coastal monitoring, and strong legal and regulatory frameworks around carbon. Additional restoration efforts, planned through Louisiana’s Coastal Master Plan, over 50 years are projected to create, or avoid loss of, up to 81,000 ha of wetland. Current restoration funding, primarily from Deepwater Horizon oil spill settlements, will be fully committed by the early 2030s and additional funding sources are required. Existing accreditation methodologies have not been successfully applied to coastal Louisiana’s ecosystem restoration approaches or herbaceous tidal wetland types. Achieving financial viability for accreditation of these restoration and wetland types will require expanded application of existing blue carbon crediting methodologies. It will also require expanded approaches for predicting the future landscape without restoration, such as numerical modeling, to be validated. Additional methodologies (and/or standards) would have many common elements with those currently available but may be beneficial, depending on the goals and needs of both the state of Louisiana and potential purchasers of Louisiana tidal wetland carbon credits. This study identified twenty targeted needs that will address data and knowledge gaps to maximize financial viability of blue carbon accreditation for Louisiana’s tidal wetlands. Knowledge needs were identified in five categories: legislative and policy, accreditation methodologies and standards, soil carbon flux, methane flux, and lateral carbon flux. Due to the large spatial scale and diversity of tidal wetlands, it is expected that progress in coastal Louisiana has high potential to be generalized to similar wetland ecosystems across the northern Gulf of Mexico and globally.