唐志伟, 翁颖, 尹春, 张琪南, 赵佳凝, 何逸飞, 唐璇, 郑宝强, 李金才, 陈翔. 有机物料还田对中国小麦籽粒蛋白质含量影响的Meta分析[J]. 中国生态农业学报 (中英文), 2024, 32(0): 1−11. DOI: 10.12357/cjea.20240358
引用本文: 唐志伟, 翁颖, 尹春, 张琪南, 赵佳凝, 何逸飞, 唐璇, 郑宝强, 李金才, 陈翔. 有机物料还田对中国小麦籽粒蛋白质含量影响的Meta分析[J]. 中国生态农业学报 (中英文), 2024, 32(0): 1−11. DOI: 10.12357/cjea.20240358
TANG Z W, WENG Y, YIN C, ZHANG Q N, ZHAO J N, HE Y F, TANG X, ZHENG B Q, LI J C, CHEN X. Response of organic material return on wheat grain protein content in China: A meta-analysis[J]. Chinese Journal of Eco-Agriculture, 2024, 32(0): 1−11. DOI: 10.12357/cjea.20240358
Citation: TANG Z W, WENG Y, YIN C, ZHANG Q N, ZHAO J N, HE Y F, TANG X, ZHENG B Q, LI J C, CHEN X. Response of organic material return on wheat grain protein content in China: A meta-analysis[J]. Chinese Journal of Eco-Agriculture, 2024, 32(0): 1−11. DOI: 10.12357/cjea.20240358

有机物料还田对中国小麦籽粒蛋白质含量影响的Meta分析

Response of organic material return on wheat grain protein content in China: A meta-analysis

  • 摘要: 有机物料(秸秆、有机肥)还田会影响小麦籽粒的营养质量。因此, 本研究基于中国各试验站点2023年9月30日前发表的文献数据进行Meta分析, 综合了65篇文献中393个观测值, 以施氮量、土壤本底有机质、年均温、年均降雨量等亚组, 评估有机物料还田对中国小麦籽粒蛋白质含量的影响。结果表明: 秸秆还田可提升小麦GPC。综合比对秸秆还田不同亚组发现, 151~200 kg·hm−2施氮量下秸秆还田对小麦GPC提升效果最佳, 秸秆还田量>9000 kg·hm−2对小麦GPC提升最大, 土壤本底有机质≥21 g·kg−1下秸秆还田可显著提升小麦GPC, 水稻和玉米秸秆还田对提升小麦GPC有显著的正向效应, 21~25℃年均温和>800 mm年均降雨量下秸秆还田对小麦GPC提升最好。有机肥还田降低了小麦GPC, 其中75%和100%有机肥替代无机肥还田显著降低小麦GPC, 但25%和50%有机肥替代无机肥可缓解对小麦GPC带来的损失。综合比对有机肥还田下不同亚组发现, 151~200 kg·hm−2和251~300 kg·hm−2施氮量下, 25%和50%有机肥替代无机肥还田可提升小麦GPC, 土壤本底有机质≥21 g·kg−1 可缓解对小麦GPC带来的损失, 且50%有机肥替代无机肥在年均温21~25℃和年均降雨量> 800 mm下均可提升小麦GPC。秸秆还田对于中国区域内小麦GPC的响应均呈现正效应, 而有机肥还田均以负效应为主, 但调控有机肥还田比例可缓解对小麦GPC的不利影响。研究结果可为中国区域内有机物料还田提高小麦籽粒蛋白质含量提供科学依据。

     

    Abstract: The incorporation of organic materials (such as straw and organic fertilizers) into agricultural fields can significantly impact the nutritional quality of wheat grains. To address this, we conducted a meta-analysis using data from studies published before September 30, 2023, across various experimental sites in China. This analysis compiled 393 observations from 65 studies to assess the impact of organic material return on wheat GPC in China. The results indicated the following: 1) Straw return can enhance wheat GPC. A detailed comparison of different subgroups within straw return practices showed that a nitrogen application rate of 151−200 kg·hm−2 was most effective for increasing wheat GPC. Moreover, straw return amounts greater than 9000 kg·hm−2 led to the largest increase in wheat GPC, and soil with a baseline organic matter content of ≥21 g·kg−1 significantly boosted wheat GPC. Additionally, returning rice and corn straw had a notable positive effect on wheat GPC, with the best improvements seen at an annual average temperature of 21−25℃ and annual rainfall over 800 mm. 2) Conversely, the return of organic fertilizers generally reduced wheat GPC, especially when 75% or 100% organic fertilizer was used to replace inorganic fertilizers, leading to a significant decrease in wheat GPC. However, replacing inorganic fertilizers with 25% or 50% organic fertilizers could mitigate this reduction in wheat GPC. Further subgroup analysis revealed that at nitrogen application rates of 151−200 kg·hm−2 and 251−300 kg·hm−2, replacing 25% and 50% of inorganic fertilizers with organic fertilizers could increase wheat GPC. A soil baseline organic matter of ≥21 g·kg−1 could also help mitigate the loss in wheat GPC, and substituting 50% of inorganic fertilizers with organic fertilizers improved wheat GPC under an annual average temperature of 21−25℃ and rainfall exceeding 800 mm. In summary, the response of wheat GPC to straw return in China generally showed a positive effect, while the return of organic fertilizers typically had a negative effect. However, adjusting the proportion of organic fertilizer return can alleviate the negative impact on wheat GPC. These findings provide a scientific foundation for optimizing wheat grain protein content through the strategic return of organic materials in China.

     

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