北方农业学报 ›› 2023, Vol. 51 ›› Issue (3): 1-11.doi: 10.12190/j.issn.2096-1197.2023.03.01

• 作物栽培·土壤肥料 •    下一篇

安徽省稻茬小麦产量差异解析

赵莉, 何贤芳, 邓骋, 汪建来   

  1. 安徽省农业科学院 作物研究所,安徽 合肥 230031
  • 收稿日期:2022-12-27 出版日期:2023-06-20 发布日期:2023-08-24
  • 通讯作者: 汪建来(1963—),男,研究员,硕士,主要从事小麦遗传育种的研究工作。
  • 作者简介:赵 莉(1980—),女,副研究员,硕士,主要从事小麦遗传育种的研究工作。
  • 基金资助:
    国家重点研发计划项目(2016YFD0300107); 安徽省农业科学院人才计划项目(XJBS-202101)

Analysis of yield gap of wheat following rice in Anhui Province

ZHAO Li, HE Xianfang, DENG Cheng, WANG Jianlai   

  1. Crop Research Institute,Anhui Academy of Agricultural Sciences,Hefei 230031,China
  • Received:2022-12-27 Online:2023-06-20 Published:2023-08-24

摘要: 【目的】定量化解析安徽省稻茬小麦产量层次差异,明确稻茬小麦产量和资源利用效率提升空间。【方法】2017—2020年,在安徽省沿淮、江淮、沿江稻茬小麦区分别设置超高产(SH)、高产高效(HH)、农户(FP)和基础地力(ISP)4种种植模式以及一级产量差(FP-ISP)、二级产量差(HH-FP)、三级产量差(SH-HH)3个差异级别,调查小麦越冬期、拔节期、开花期、灌浆期、成熟期干物质积累和叶面积指数,成熟期调查有效穗数、穗粒数、千粒重和经济系数,实收测产。【结果】安徽省沿淮、江淮、沿江稻茬小麦一级产量差(FP-ISP)最大,平均为3 009.6 kg/hm2;二级产量差(HH-FP)和三级产量差(SH-HH)分别为768.5和758.0 kg/hm2。不同稻茬小麦区产量差异不同,一级产量差从北到南逐渐变小,二级产量差从北到南略增,三级产量差北部略高于南部。年度间各级产量差差异较大。缩小一级产量差的有效途径为有效穗数、穗粒数、生物产量、经济系数、拔节期叶面积指数的提升;缩小二级产量差的有效途径为穗粒数、生物产量、开花期干物质的提升;缩小三级产量差的有效途径为有效穗数、经济系数的提升。库数量、库体积、越冬期与拔节期叶面积指数、花后干物质积累量与稻茬小麦产量极显著正相关(P<0.01)。氮肥农学利用效率、光能利用效率、积温利用效率随着产量的提高而增加。【结论】增加籽粒库数量、扩大库容、提高籽粒库质量是缩小安徽省稻茬小麦产量差和提升产量的有效手段。

关键词: 安徽省, 稻茬小麦, 产量差异, 缩差途径

Abstract: 【Objective】To quantitatively analyze the yield gap of wheat following rice in Anhui Province and clarify the space for increasing yield and improving utilization efficiency of resource of wheat following rice.【Methods】Four cultivation patterns:super high yield(SH),high yield and high efficiency(HH),farmer pattern(FP)and inherent soil productivity(ISP)and three difference levels:first-level yield gap(FP-ISP),second-level yield gap(HH-FP),and third-level yield gap(SH-HH) were set up in wheat following rice areas along the Huai River,between Yangtze River and Huai River,and along the Yangtze River in Anhui Province from 2017 to 2020. The dry matter accumulation and leaf area index of over-wintering stage,jointing stage,anthesis stage,filling stage and maturity stage were determined and the effective ear number,kernels per ear,1 000-grain weight and economic coefficient,as well as yield were measured at maturity stage.【Results】Along the Huai River,between Yangtze River and Huai River,and along the Yangtze River in Anhui Province,the first-level yield gap(FP-ISP) of wheat following rice was the largest,with an average of 3 009.6 kg/hm2. The second-level yield gap and the third-level yield gap were 768.5 and 758.0 kg/hm2,respectively. Yield gaps varied among different wheat following rice planting regions,with the first-level yield gap decreased gradually from north to south,the second-level yield gap increased slightly from north to south,and the third-level yield gap in the north slightly higher than that of the south. The yield gap of the different levels varied greatly among different years. The effective measures to narrow the first-level yield gap were to increase the effective ear number,kernels per ear,biological yield,economic coefficient and leaf area index in jointing stage.The effective measures to narrow the second-level yield gap were the enhancement of kernels per ear,biological yield and dry matter in anthesis stage. The effective measures to narrow the third-level yield gap were to increase the effective ear number and economic coefficient. Sink number,sink volume,leaf area index in over-wintering stage and jointing stage and dry matter accumulation after flowering were extremely significantly positive correlated(P<0.01) with the yield of wheat following rice. Nitrogen agronomic utilization efficiency,light and accumulative temperature utilization efficiency increased with the improvement of yield.【Conclusion】Increasing grain sink number,expanding sink capacity and improving grain sink quality were the effective means to narrow the yield gap and increase yield of wheat following rice in Anhui Province.

Key words: Anhui Province, Wheat following rice, Yield gap, Measures to narrow yield gap

中图分类号: 

  • S512.1