Interactive effects of land-use change and topography on asymbiotic nitrogen fixation in Brazil's Atlantic Forest

Published: 1 March 2020| Version 1 | DOI: 10.17632/px2hd223xk.1
Barbara Bomfim,


In this study, we investigate patterns of soil ANF and its biogeochemical controls across multiple land uses and topographic positions in the Brazilian Atlantic Forest. We report ANF rates derived from observational and manipulative laboratory experiments using 15N-labeled dinitrogen (15N2) incubations of soils from primary forest, secondary forest, eucalypt plantations and pastures sampled at three hillslope positions (summit, backslope, and foot slope). We also measured several biogeochemical variables in soils (0-10 and 10-30 cm depths) collected from those four land-use types, including total C, total N, total P, total Fe, Mehlich-3 P, Mehlich-3 Fe, potentially mineralizable N, pH, bulk density, and gravimetric water content. All the details about the soil analyses are included in the article link provided below.



University of California Davis


Soil Science, Pasture, Land-Use Change Impact on Soil, Biological Nitrogen Fixation, Tropical Forest Ecosystem, Soil Fertilization, Topography, Nutrient Biogeochemistry