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Nitrogen balance acts an indicator for estimating thresholds of nitrogen input in rice paddies of China

Wencheng Ding, Xinpeng Xu, Jiajia Zhang, Shaohui Huang, Ping He, Wei Zhou

2021Environmental Pollution51 citationsDOIOpen Access PDF

Abstract

Decision-making related to nitrogen (N) fertilization is a crucial step in agronomic practices because of its direct interactions with agronomic productivity and environmental risk. Here, we hypothesized that soil apparent N balance could be used as an indicator to determine the thresholds of N input through analyzing the responses of the yield and N loss to N balance. Based on the observations from 951 field experiments conducted in rice (Oryza sativa L.) cropping systems of China, we established the relationships between N balance and ammonia (NH3) volatilization, yield increase ratio, and N application rate, respectively. Dramatical increase of NH3 volatilizations and stagnant increase of the rice yields were observed when the N surplus exceeded certain levels. Using a piecewise regression method, the seasonal upper limits of N surplus were determined as 44.3 and 90.9 kg N ha−1 under straw-return and straw-removal scenarios, respectively, derived from the responses of NH3 volatilization, and were determined as 53.0–74.9 and 97.9–112.0 kg N ha−1 under straw-return and straw-removal scenarios, respectively, derived from the maximum-yield consideration. Based on the upper limits of N surplus, the thresholds of N application rate suggested to be applied in single, middle-MLYR, middle-SW, early, and late rice types ranged 179.0–214.9 kg N ha−1 in order to restrict the NH3 volatilization, and ranged 193.3–249.8 kg N ha−1 in order to achieve the maximum yields. If rice straw was returned to fields, on average, the thresholds of N application rate could be theoretically decreased by 17.5 kg N ha−1. This study provides a robust reference for restricting the N surplus and the synthetic fertilizer N input in rice fields, which will guide yield goals and environmental protection.

Topics & Concepts

StrawAgronomyOryza sativaNitrogenPaddy fieldEnvironmental scienceMathematicsAnimal scienceYield (engineering)Nitrogen balanceVolatilisationChemistryBiologyBiochemistryMaterials scienceGeneMetallurgyOrganic chemistryRice Cultivation and Yield ImprovementSoil Carbon and Nitrogen DynamicsSoil and Water Nutrient Dynamics