Seagrass Abundance Predicts Surficial Soil Organic Carbon Stocks Across the Range of Thalassia Testudinum in the Western North Atlantic
James W. Fourqurean,Justin E. Campbell,O. Kennedy Rhoades, Calvin J. Munson,Johannes R. Krause,Andrew H. Altieri,James G. Douglass,Kenneth L. Heck,Valerie J. Paul,Anna R. Armitage,Savanna C. Barry, Enrique Bethel, Lindsey Christ,Marjolijn J. A. Christianen, Grace Dodillet, Katrina Dutton,Thomas K. Frazer, Bethany M. Gaffey,Rachael Glazner,Janelle A. Goeke, Rancel Grana-Valdes, Olivier A. A. Kramer, Samantha T. Linhardt,Charles W. Martin, Isis Gabriela Martínez López,Ashley M. McDonald, Vivienne A. Main,Sarah A. Manuel,Candela Marco-Méndez,Duncan A. O’Brien,Owen O’Shea,Christopher J. Patrick, Clare Peabody,Laura K. Reynolds,Alex Rodriguez,Lucia M. Rodriguez Bravo, Amanda Sang,Yvonne Sawall,Fee O. H. Smulders,Jamie E. Thompson,Brigitta van Tussenbroek,William L. Wied,Sara S. Wilson ESTUARIES AND COASTS(2023)
Key words
Blue carbon,Submerged aquatic vegetation,Latitudinal gradients,Decomposition,Nutrient limitation,Sediment
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