ABSTRACT
The emission of soil carbon dioxide (CO2) in agricultural areas is a process that results from the interaction of several factors such as climate, soil, and land management practices. Agricultural practices directly affect the carbon dynamics between the soil and atmosphere. Herein, we evaluated the temporal variability (2020/2021 crop season) of soil CO2 emissions and its relationship with related variables, such as the CO2 flux model, enhanced vegetation index (EVI), gross primary productivity (GPP), and leaf area index (LAI) from orbital data and soil temperature, soil moisture, and soil CO2 emissions from in situ collections from native forests, productive pastures, degraded pastures, and areas of high-yield potential soybean and low-yield potential soybean production. A significant influence (p < 0.01) was observed for all variables and between the different land uses and occupation types. September and October had lower emissions of soil CO2 and low means of soil moisture and soil temperature, and no differences were observed among the treatments. On the other hand, there was a significant effect of the CO2 flux model in productive pastures, high-yield potential soybean areas, and low-yield potential soybean areas. The months with the highest CO2 flux values in the model, regardless of land use and land cover, were October and November, which is the beginning of the rainy season. There were positive correlations between soil CO2 emissions and GPP (0.208), LAI (0.354), EVI (0.363), and soil moisture (0.280) and negative correlations between soil CO2 emissions and soil temperature (-0.240) and CO2 flux model (-0.314) values. Land use and land cover showed negative correlations with these variables, except for the CO2 flux model variable. Soil CO2 emission values were lower for high-yield potential soybean areas (averages from 0.834 to 6.835 µmol m-2 s-1) and low-yield potential soybean areas (from 0.943 to 5.686 µmol m-2 s-1) and higher for native forests (from 2.279 to 8.131 µmol m-2 s-1), whereas the opposite was true for the CO2 flux model.
Subject(s)
Carbon Dioxide , Forests , Carbon Dioxide/analysis , Brazil , Agriculture/methods , Soil , MethaneABSTRACT
Abstract Introduction: The fruit of the yellow mombin (Spondias mombin L.) is notable due to its sensory and functional qualities. However, there is little knowledge regarding the genetic diversity of this species, and this would aid the implantation of the cultivation of the fruit as a crop, since current production is based on extractivism. Objective: Evaluate the diversity and genetic structure of natural populations of S. mombin in the state of Mato Grosso, Brazil, through microsatellite molecular markers in order to assist in the implementation of conservation strategies and the collection of genetic resources. Methods: A total of 139 S. mombin individuals were sampled in ten natural populations. PCR amplifications were performed with seven fluorescence-marked microsatellite primers. Genetic diversity was evaluated by the number of alleles, expected (He) and observed heterozygosity (Ho), polymorphic information content (PIC), fixation index (ƒ), rare and exclusive alleles. The genetic structure was evaluated using AMOVA, UPGMA dendrogram and Bayesian statistical analysis. Results: 46 alleles were amplified, which had an average of 6.6 alleles per locus. He was higher than Ho and f was positive, indicating the presence of inbreeding. The PIC ranged from 0.048 to 0.700, and only two loci were poorly informative. We found 27 rare alleles and 16 unique alleles. The largest component of variation was intrapopulational (90.64 %). The estimated gene flow was 1.99, which indicates that there is no genetic isolation between populations, and justifies the FST value (0.0963). The ten populations were grouped into two groups, and two populations constituted an isolated group. The Mantel test demonstrated that the genetic structure is not related to the geographic distance between populations. Conclusion: There is genetic diversity in the populations of S. mombin, which must be conserved in situ or ex situ, due to the diversity they present and because they are promising sources for collection of germplasm.
Resumen Introducción: El fruto amarillo del jobo o yuplón (Spondias mombin L.) destaca por sus cualidades sensoriales y funcionales. Sin embargo, existe poco conocimiento sobre la diversidad genética de esta especie, lo que ayudaría a la implantación del cultivo del fruto como cultivo, ya que la producción actual se basa en el extractivismo. Objetivo: Evaluar la diversidad y estructura genética de poblaciones naturales de S. mombin en el estado de Mato Grosso, Brasil, a través de marcadores moleculares microsatélites para ayudar en la implementación de estrategias de conservación y recolección de recursos genéticos. Métodos: Se muestrearon un total de 139 individuos de S. mombin en diez poblaciones naturales. Las amplificaciones por PCR se realizaron con siete cebadores de microsatélites marcados con fluorescencia. La diversidad genética se evaluó por el número de alelos, heterocigosidad esperada (He) y observada (Ho), contenido de información polimórfica (PIC), índice de fijación (ƒ), alelos raros y exclusivos. La estructura genética se evaluó mediante AMOVA, dendrograma UPGMA y análisis estadístico bayesiano. Resultados: Se amplificaron 46 alelos, los cuales tenían un promedio de 6.6 alelos por locus. Fue más alto que Ho y f positivo, lo que indica la presencia de endogamia. El PIC osciló entre 0.048 y 0.700, y solo dos loci fueron poco informativos. Encontramos 27 alelos raros y 16 alelos únicos. El mayor componente de variación fue intrapoblacional (90.64 %). El flujo de genes estimado fue de 1.99, lo que indica que no hay aislamiento genético entre poblaciones y justifica el valor de FST (0.0963). Las diez poblaciones se agruparon en dos grupos y dos poblaciones constituyeron un grupo aislado. La prueba de Mantel demostró que la estructura genética no está relacionada con la distancia geográfica entre poblaciones. Conclusión: Existe diversidad genética en las poblaciones de S. mombin, la cual debe ser conservada in situ o ex situ, por la diversidad que presentan y porque son fuentes promisorias para la recolección de germoplasma.
