Tropical and Subtropical Agroecosystems 25 (2022): #090 Rodríguez-Bustos et al., 2022 1 MICROBIAL METABOLIC ACTIVITY AS LEGACY OF AGRICULTURAL MANAGEMENT IN MAIZE AGROECOSYSTEMS FROM MEXICO HIGHLANDS † [ACTIVIDAD METABÓLICA MICROBIANA COMO LEGADO DEL MANEJO AGRÍCOLA EN AGROECOSISTEMAS DE MAÍZ DE VALLES ALTOS MÉXICO] Laura Rodríguez-Bustos 1 , Leopoldo Galicia 2* , Bruno Chávez-Vergara 3 and Ofelia Beltrán-Paz 4 1 Insituto de Ecología, Universidad Nacional Autónoma de México, Circuito Zona deportica s/n, 04510, Ciudad de México, México. Email: geolauralicia@gmail.com 2 Instituto de Geografía, Universidad Nacional Autónoma de México, Circuito Exterior s/n, Ciudad Universitaria, 04510, Ciudad de México, Mexico. Email: lgalicia@igg.unam.mx 3 Instituto de Geología and Laboratorio Nacional de Geoquímica y Mineralogía, Circuito Exterior s/n, Ciudad Universitaria, 04510, Ciudad de México, Mexico. Email: chavezvb@geologia.unam.mx 4 Instituto de Geología, Departamento de Ciencias Ambientales y del Suelo, Circuito Exterior s/n, Ciudad Universitaria, 04510, Ciudad de México, México. Email: ofe.ivette@gmail.com *Corresponding author SUMMARY Background. Soil ecological functions such as C mineralization, enzyme activity, and microbial biomass determine the maintenance of soil fertility in the short and long term. Microbial activity is a sensitive indicator of changes in soils under agricultural management. Objective. Evaluate the metabolic response of soil microbial communities in two temperate maize agroecosystems with different management intensities. Methodology. This study evaluated total soil nutrient concentrations, C mineralization, and microbial metabolic activity by comparing two agricultural regimes. The first one is an intensive regime (IR) characterized by the exclusive use of synthetic fertilizers in a maize monoculture. The second one is a traditional regime (TR) characterized by the use of mixtures of organic matter (maize and bean residues and manure) with synthetic fertilizers in a rotation system of maize and beans. Physical, chemical, and biological properties were tested in the laboratory, and the specific enzyme activity (SEA) and metabolic quotient (qCO2) were calculated. Results. Total soil C concentration was 19% higher in TR (26.6 mg g -1 ) than in IR (5.1 mg g -1 ); total C biomass was 30% higher in TR (279 mg C g -1 ) versus IR (83.9 mg C g -1 ), and potential C mineralization was 40% higher in TR (356 μg C g -1 d -1 ) than IR (214 μg C g -1 d -1 ); in contrast, SEA and qCO2 were lower in TR versus IR. These results support the hypothesis that the microbial community is more efficient under TR than IR because it produces extracellular and intracellular enzymes while growing in biomass. Implications. The present study provides new information about the effect of agricultural management on microbial activity, which is important for farmers not only in Mexico Highlands but also in any agricultural scenario exposed to changes in management practices. Conclusions. Assessment of biological soil properties is a sensitive indicator of changes in soil properties induced by management. Metabolic indices are suitable for the evaluation of ecological functions in cultivated soils. Key words: carbon cycle; enzyme activity; maize; metabolic quotient; soil microbial activity. RESUMEN Antecedentes. Las funciones ecológicas del suelo como la mineralización de C, la actividad enzimática y la biomasa microbiana determinan el mantenimiento de la fertilidad del suelo a corto y largo plazo. La actividad microbiana es un indicador sensible de cambios en los suelos bajo manejo agrícola. Objetivo. Evaluar la † Submitted August 8, 2021 – Accepted May 5, 2022. https://doi.org/10.56369/tsaes.3911 Copyright © the authors. Work licensed under a CC-BY 4.0 License. https://creativecommons.org/licenses/by/4.0/ ISSN: 1870-0462.