Nitrous oxide flux from soil with Urochloa brizantha under nitrogen fertilization in Honduras

Q4 Agricultural and Biological Sciences

Agronomia Colombiana Pub Date : 2022-12-31 DOI:10.15446/agron.colomb.v40n3.102963

Breno Augusto Sosa Rodrigues, Diego E. Tobar López, Yuly Samanta García Vivas, Josué Mauricio Flores Cocas, Noé Humberto Paiz Gutiérrez, Elsa Gabriela Zelaya Méndez

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Abstract

The emission of nitrous oxide is considerable in livestock systems, influenced by nitrogen fertilization and edaphoclimatic conditions. The aim of the research was to measure the flux of nitrous oxide (N2O) from the soil under Urochloa brizantha with nitrogen fertilization. In the pastures, a randomized complete block design was established with four replicates and three treatments, consisting of 2 m2 plots with U. brizantha fertilized with urea, bokashi and without fertilizer application. The gas samples were collected over three months between the rainy and dry seasons using the static closed chamber methodology. The samples related to the soil and plants were taken at a depth of 15 cm under undisturbed conditions every month, to quantify: gravimetric moisture, ammonium, nitrate, total carbon, total nitrogen, carbon/nitrogen ratio, and plant dry matter (DM). The ANAVA registered a significant difference between treatments for N2O, with the application of urea promoting higher accumulated flows (0.37 mg N2O m-2 h-1), followed by bokashi (0.34 mg N2O m-2 h-1) and lastly by the control (0.27 mg N2O m-2 h-1). The daily emission of the gas fluctuated in the rainy season, when soil moisture promoted higher emission peaks compared to the dry season. The fractions of nitrogen, carbon and DM were not affected by the treatments. The use of urea and the anaerobic conditions of soil due to the rains generated higher N2O values, while the organic amendment, bokashi, was the best alternative for the greenhouse gas mitigation and soil conservation.

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洪都拉斯乌罗chloa brizantha土壤氮氧化物通量研究

受氮肥和土壤气候条件的影响，一氧化二氮在牲畜系统中的排放量相当大。本研究的目的是测量氮施肥条件下乌罗奇洛阿（Urochloa brizantha）土壤中一氧化二氮（N2O）的通量。在牧场上，建立了一个随机的完全区组设计，包括四个重复和三个处理，由2平方米的地块组成，用尿素、博卡施和不施肥的方式施用黑胡椒。使用静态密闭室方法在雨季和旱季之间的三个月内采集气体样本。每月在未扰动条件下，在15 cm深处采集与土壤和植物相关的样本，以量化重量水分、铵、硝酸盐、总碳、总氮、碳氮比和植物干物质（DM）。ANAVA在N2O处理之间表现出显著差异，施用尿素可促进更高的累积流量（0.37 mg N2O m-2 h-1），其次是博卡什（0.34 mg N2O m-1 h-1）和最后是对照（0.27 mg N2O m-2 h-1。气体的日排放量在雨季波动，与旱季相比，土壤湿度促进了更高的排放峰值。氮、碳和DM的分数不受处理的影响。尿素的使用和降雨导致的土壤厌氧条件产生了更高的N2O值，而有机改良剂bokashi是缓解温室气体和土壤保护的最佳替代方案。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Agronomia Colombiana Agricultural and Biological Sciences-Agronomy and Crop Science

CiteScore

1.00

自引率

0.00%

发文量

审稿时长

25 weeks

期刊介绍： Agronomia Colombiana journal it is intended to transfer research results in different areas of tropical agronomy. Original unpublished papers are therefore accepted in the following areas: physiology, crop nutrition and fertilization, genetics and plant breeding, entomology, phytopathology, integrated crop protection, agro ecology, weed science, environmental management, geomatics, biometry, soils, water and irrigation, agroclimatology and climate change, post-harvest and agricultural industrialization, food technology, rural and agricultural entrepreneurial development, agrarian economy, and agricultural marketing (Published: Quarterly).