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Herbivore effects increase with latitude across the extent of a foundational seagrass

Justin E. Campbell, O. Kennedy Rhoades, Calvin J. Munson, 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, James W. Fourqurean, Thomas K. Frazer, Bethany M. Gaffey, Rachael Glazner, Janelle A. Goeke, Rancel Grana-Valdes, Victoria J. Jenkins, 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 O’Brien, Owen R. O’Shea, Christopher J. Patrick, Clare Peabody, Laura K. Reynolds, Alex Rodriguez, Lucia M. Rodriguez Bravo, Amanda Sang, Yvonne Sawall, K. D. Smith, Fee O. H. Smulders, Uriah Sun, J.E. Thompson, Brigitta I. van Tussenbroek, William L. Wied

2024Nature Ecology & Evolution17 citationsDOIOpen Access PDF

Topics & Concepts

HerbivoreSeagrassEcologyLatitudeEcosystemClimate changeBiomass (ecology)Range (aeronautics)Trophic levelEnvironmental scienceHabitatGeographyBiologyMaterials scienceGeodesyComposite materialMarine and coastal plant biologyCoastal wetland ecosystem dynamicsBryophyte Studies and Records
Herbivore effects increase with latitude across the extent of a foundational seagrass | Litcius