中国农业科学 ›› 2022, Vol. 55 ›› Issue (8): 1589-1603.doi: 10.3864/j.issn.0578-1752.2022.08.010
马小艳1(),杨瑜1,黄冬琳1(),王朝辉1,2(),高亚军1,李永刚3,吕辉4
收稿日期:
2021-03-03
接受日期:
2021-05-26
出版日期:
2022-04-16
发布日期:
2022-05-11
联系方式:
马小艳,E-mail: Maxiaoyan12201122@163.com。
基金资助:
MA XiaoYan1(),YANG Yu1,HUANG DongLin1(),WANG ZhaoHui1,2(),GAO YaJun1,LI YongGang3,LÜ Hui4
Received:
2021-03-03
Accepted:
2021-05-26
Published:
2022-04-16
Online:
2022-05-11
摘要:
【目的】研究小麦化肥减量条件下不同轮作方式土壤养分平衡及经济效益差异,探索适宜陕西关中小麦玉米轮作区的小麦轮作方式,为减少化肥投入,提高农民经济收入提供思路与科学依据。【方法】于2018—2020年在陕西武功镇开展田间试验,随机区组设计。设玉米-小麦轮作农户施肥(CWF)、玉米-小麦轮作推荐施肥(CWR)、绿肥-小麦轮作推荐施肥(GWR)、大豆-小麦轮作推荐施肥(BWR)4个处理,除农户施肥处理外,其他3个处理的小麦季施肥均采用监控施肥技术推荐施肥。采集不同夏季作物及冬小麦的植物和土壤样品进行分析。【结果】与农户施肥相比,玉米-小麦轮作推荐施肥处理在氮、磷肥分别减量11.8%、41.7% 条件下,显著增加了小麦产量,平均增幅为7.4%,显著增加了小麦籽粒及地上部氮、磷素养分累积量,氮素累积量增幅分别为10.1%、8.9%,磷素累积量增幅分别为9.8%、6.4%;玉米-小麦轮作推荐施肥处理显著降低了土壤氮、磷、钾素盈余率,降幅分别为25.1%、72.3%和54.4%,显著提高经济收益36%。推荐施肥的3种轮作方式中,玉米-小麦轮作小麦产量最高,其次为大豆-小麦轮作。大豆-小麦轮作氮、磷、钾盈余率均显著低于玉米-小麦轮作和绿肥-小麦轮作,降低幅度分别为87.3%—92.0%、41.9%—67.7%、78.1%—85.3%,并获得了最高的经济收益。【结论】监控施肥的推荐施肥方法不仅能够减少化肥投入,降低生产成本,同时能够增加小麦产量,提高小麦籽粒及地上部养分累积量,减少氮、磷养分平衡的盈余率,提高经济收益。相比玉米-小麦轮作方式,大豆-小麦轮作既减少了化肥的投入,大幅降低氮、磷、钾养分盈余量,同时还取得较高的经济效益。综上,陕西关中地区传统的玉米-小麦轮作可通过优化施肥减少化肥投入,降低生产成本;而综合考虑土壤培肥、环境效益与经济收益,优先推荐大豆-小麦轮作方式,减少土壤养分盈余,提高种粮农户的经济收益。
马小艳, 杨瑜, 黄冬琳, 王朝辉, 高亚军, 李永刚, 吕辉. 小麦化肥减施与不同轮作方式的周年养分平衡及经济效益分析[J]. 中国农业科学, 2022, 55(8): 1589-1603.
MA XiaoYan, YANG Yu, HUANG DongLin, WANG ZhaoHui, GAO YaJun, LI YongGang, LÜ Hui. Annual Nutrients Balance and Economic Return Analysis of Wheat with Fertilizers Reduction and Different Rotations[J]. Scientia Agricultura Sinica, 2022, 55(8): 1589-1603.
表1
不同年份不同处理纯养分施用量"
年份 Year | 处理 Treatment | 夏季作物 Summer crop | 冬小麦 Winter wheat | ||||
---|---|---|---|---|---|---|---|
N (kg·hm-2 ) | P2O5 (kg·hm-2) | K2O (kg·hm-2) | N (kg·hm-2) | P2O5 (kg·hm-2) | K2O (kg·hm-2) | ||
2018—2019 | CWF | 246 | 45 | 12 | 255 | 180 | 30 |
CWR | 188 | 60 | 72 | 225 | 105 | 45 | |
GWR | 0 | 0 | 0 | 225 | 105 | 45 | |
BWR | 0 | 0 | 0 | 225 | 105 | 45 | |
2019—2020 | CWF | 246 | 45 | 12 | 255 | 180 | 30 |
CWR | 158 | 60 | 72 | 225 | 105 | 45 | |
GWR | 0 | 0 | 0 | 225 | 105 | 45 | |
BWR | 0 | 0 | 0 | 225 | 105 | 45 |
表2
不同夏季作物产量、还田生物量、养分还田量"
年份 Year | 处理 Treatment | 籽粒产量 Grain yield (kg·hm-2) | 地上部还田生物量 Aboveground biomass (kg·hm-2) | 氮素还田量 Nitrogen returning (kg·hm-2) | 磷素还田量 Phosphorus returning (kg·hm-2) | 钾素还田量 Potassium returning (kg·hm-2) |
---|---|---|---|---|---|---|
2018 | CWF | 4869a | 6995a | 89.0ab | 8.4b | 77.5b |
CWR | 6054a | 7318a | 129.3a | 11.7b | 131.5a | |
GWR | — | 4914b | 136.3a | 21.3a | 72.3b | |
BWR | 667b | 1035c | 24.6c | 6.3b | 14.9c | |
2019 | CWF | 2917a | 6312ab | 66.2b | 7.0b | 50.2ab |
CWR | 3195a | 7515a | 80.9ab | 7.8b | 60.5a | |
GWR | — | 4346b | 92.3a | 12.8a | 33.5b | |
BWR | 1597b | 1572c | 27.7c | 3.7c | 13.2c | |
平均 Mean | CWF | 3893a | 6654ab | 83.5ab | 7.7c | 115.2ab |
CWR | 4625a | 7417a | 109.3a | 10.6b | 122.1a | |
GWR | — | 4630b | 126a | 21.5a | 65.6b | |
BWR | 1132b | 1304c | 32.5b | 8.2b | 19.3c |
表3
不同处理小麦地上部生物量及产量构成要素"
年份 Year | 处理 Treatment | 产量 Yield (kg·hm-2) | 地上部生物量干重 Biomass (kg·hm-2) | 收获指数 Harvest index (%) | 公顷穗数 Number of spikes per hectare (×104) | 穗粒数 Number of grains per spike | 千粒重 1000-weight (g) |
---|---|---|---|---|---|---|---|
2018—2019 | CWF | 7536a | 15574a | 48.4b | 542b | 30a | 46.7b |
CWR | 7687a | 16136a | 48.9ab | 586a | 28a | 48.0ab | |
GWR | 7892a | 16078a | 50.8ab | 571a | 29a | 48.7 a | |
BWR | 7440a | 15387a | 51.3a | 481c | 29a | 49.6 a | |
2019—2020 | CWF | 10198bc | 15444b | 67.6a | 629d | 32a | 46.4a |
CWR | 11360a | 17915 a | 66.7a | 871a | 29b | 45.0a | |
GWR | 9972c | 14358 c | 68.3a | 794c | 27b | 44.3a | |
BWR | 10782ab | 15779 b | 67.0a | 835b | 26b | 44.9a | |
平均Mean | CWF | 8867b | 15509b | 58.0a | 586c | 31a | 46.5a |
CWR | 9524a | 17025a | 57.8a | 728a | 29b | 46.5a | |
GWR | 8932b | 15218b | 59.5a | 682b | 28b | 46.5a | |
BWR | 9111b | 15583b | 59.2a | 657b | 28b | 47.2a |
表4
小麦播前期和收获期0—20 cm土层速效养分含量"
时期 Period | 处理 Treatment | 2018—2019 | 2019—2020 | ||||
---|---|---|---|---|---|---|---|
硝态氮 Nitrate nitrogen (mg·kg-1) | 速效磷 Available phosphorus (mg·kg-1) | 速效钾 Available potassium (mg·kg-1) | 硝态氮 Nitrate nitrogen (mg·kg-1) | 速效磷 Available phosphorus (mg·kg-1) | 速效钾 Available potassium (mg·kg-1) | ||
播前 Sowing | CWF | 12.97ab | 12.10b | 133.0a | 14.61a | 27.07a | 163.6ab |
CWR | 15.13a | 18.23a | 136.4a | 10.57b | 24.02ab | 161.0bc | |
GWR | 14.51a | 14.50ab | 141.4a | 9.12b | 17.3b | 156.7c | |
BWR | 9.25b | 16.99ab | 123.5a | 5.89c | 22.08ab | 169.6a | |
收获 Harvest | CWF | 7.22c | 10.19a | 109.2bc | 6.73b | 24.01a | 143.2ab |
CWR | 11.78ab | 9.71a | 123.5ab | 9.61a | 23.53a | 163.2a | |
GWR | 12.44a | 10.17a | 99.96c | 8.69ab | 22.36a | 144.2ab | |
BWR | 9.95b | 12.00a | 138.9a | 8.86ab | 19.83a | 137.5b |
表5
小麦季养分投入与产出平衡表"
年份 Year | 处理 Treatment | 投入 Input (kg·hm-2) | 产出 Output (kg·hm-2) | 平衡值 Equilibrium value (kg·hm-2) | 盈余率 Surplus rate (%) | ||||||||
---|---|---|---|---|---|---|---|---|---|---|---|---|---|
N | P2O5 | K2O | N | P2O5 | K2O | N | P2O5 | K2O | N | P2O5 | K2O | ||
2018—2019 | CWF | 344.0 | 194.6 | 98.3 | 195.8b | 78.18 c | 45.2a | 148.2ab | 116.4a | 53.1c | 75.9a | 149.0a | 117.7c |
CWR | 354.3 | 128.4 | 182.8 | 218.6ab | 83.5bc | 44.5a | 135.7b | 44.9c | 138.3a | 62.5a | 53.7c | 310.8a | |
GWR | 390.1 | 160.7 | 132.1 | 221.9a | 90.6a | 45.0a | 168.2a | 70.0b | 87.1b | 76.1a | 77.2b | 193.4b | |
BWR | 249.6 | 119.4 | 63.0 | 215.0ab | 85.2ab | 45.1a | 34.5c | 34.3d | 17.9d | 16.3b | 40.2d | 39.6d | |
2019—2020 | CWF | 321.2 | 195.6 | 90.4 | 265.4a | 89.0b | 50.5a | 55.9b | 106.6a | 40.0b | 21.1b | 120.2a | 79.9 b |
CWR | 305.9 | 122.9 | 117.9 | 277.1a | 100.0a | 51.4a | 28.8c | 23.0c | 66.5a | 10.6c | 23.4c | 130.2a | |
GWR | 317.3 | 134.2 | 85.3 | 243.0b | 86.4b | 44.3b | 74.3a | 47.8b | 41.1b | 30.6a | 55.3b | 94.2 b | |
BWR | 252.7 | 113.5 | 60.9 | 266.9a | 106.6a | 49.1a | -14.2d | 6.9d | 11.8c | -5.3d | 6.5d | 24.0c | |
2018—2020 | CWF | 665.2 | 390.2 | 188.7 | 461.2b | 167.2c | 95.6a | 204.1b | 223.0a | 93.1c | 44.3b | 133.4a | 97.3c |
CWR | 660.1 | 251.3 | 300.7 | 495.6a | 183.5ab | 95.9a | 164.5c | 67.8c | 204.8a | 33.2c | 37.0c | 213.4a | |
GWR | 707.4 | 294.9 | 217.5 | 464.9b | 177.1bc | 89.3a | 242.6a | 117.8b | 128.2b | 52.2a | 66.5b | 143.5b | |
BWR | 502.3 | 232.9 | 123.8 | 481.9ab | 191.7a | 94.2a | 20.4d | 41.2d | 29.6d | 4.2d | 21.5d | 31.4d |
表6
各处理经济效益分析表"
年份 Year | 处理 Treatment | 肥料 Fertilizer | 种子 Seed | 机械 Mechanics | 其他费用 other expenses | 总成本 Total cost | 总收益 Total revenue | 净收益 Net profit |
---|---|---|---|---|---|---|---|---|
2018—2019 | CWF | 3552 | 1650 | 4781 | 9053 | 19036 | 26415 | 7380ab |
CWR | 3563 | 1650 | 4781 | 9053 | 19047 | 29142 | 10095a | |
GWR | 1851 | 2100 | 4931 | 6578 | 15460 | 17362 | 1902c | |
BWR | 1851 | 2100 | 4931 | 6578 | 15460 | 20368 | 4908bc | |
2019—2020 | CWF | 3552 | 1650 | 4781 | 9053 | 19036 | 28328 | 9292c |
CWR | 3452 | 1650 | 4781 | 9053 | 18936 | 31446 | 12510b | |
GWR | 1851 | 2100 | 4931 | 6578 | 15460 | 21939 | 6479d | |
BWR | 1851 | 1500 | 4931 | 6578 | 14860 | 33302 | 18442a | |
平均 Mean | CWF | 3552 | 1650 | 4781 | 9053 | 19036 | 27372 | 8336b |
CWR | 3508 | 1650 | 4781 | 9053 | 18992 | 30294 | 11302a | |
GWR | 1851 | 2100 | 4931 | 6578 | 15460 | 19651 | 4191c | |
BWR | 1851 | 1800 | 4931 | 6578 | 15160 | 26835 | 11675a |
[1] |
刘妍妮. 陕西省粮食播种面积及其产量动态与预测. 江西农业学报, 2018, 30(10): 142-146. doi: 10.19386/j.cnki.jxnyxb.2018.10.28.
doi: 10.19386/j.cnki.jxnyxb.2018.10.28 |
LIU Y N. Dynamics and prediction of grain sown area and yield in Shaanxi Province. Acta Agriculturae Jiangxi, 2018, 30(10): 142-146. doi: 10.19386/j.cnki.jxnyxb.2018.10.28. (in Chinese)
doi: 10.19386/j.cnki.jxnyxb.2018.10.28 |
|
[2] | 戴相林. 关中中西部地区农田土壤养分平衡状况演变研究[D]. 杨凌: 西北农林科技大学, 2012. |
DAI X L. Changes of nutrient balances in soil in Midwest region of Guanzhong plain[D]. Yangling: Northwest A & F University, 2012. (in Chinese) | |
[3] |
王群, 王建, 张学林, 赵亚丽, 李潮海. 不同耕作模式下小麦玉米周年生产及土壤养分变化特征. 河南农业大学学报, 2015, 49(4): 429-437. doi: 10.16445/j.cnki.1000-2340.2015.04.001.
doi: 10.16445/j.cnki.1000-2340.2015.04.001 |
WANG Q, WANG J, ZHANG X L, ZHAO Y L, LI C H. Change characteristics of wheat and maize anniversary production and soil nutrient content under different rotation tillage patterns. Journal of Henan Agricultural University, 2015, 49(4): 429-437. doi: 10.16445/j.cnki.1000-2340.2015.04.001. (in Chinese)
doi: 10.16445/j.cnki.1000-2340.2015.04.001 |
|
[4] | 李露, 杨玲, 廖允成, 温晓霞. 黄土高原半湿润区旱地一年两熟复种模式土壤水分效应. 干旱地区农业研究, 2010, 28(4): 145-151. |
LI L, YANG L, LIAO Y C, WEN X X. Study on soil moisture effect of double cropping in the dryland of subhumid areas of the Loess Plateau. Agricultural Research in the Arid Areas, 2010, 28(4): 145-151. (in Chinese) | |
[5] |
于亚莉, 史东梅, 蒋平. 不同土壤管理措施对坡耕地土壤氮磷养分流失的控制效应. 水土保持学报, 2017, 31(1): 30-36, 42. doi: 10.13870/j.cnki.stbcxb.2017.01.006.
doi: 10.13870/j.cnki.stbcxb.2017.01.006 |
YU Y L, SHI D M, JIANG P. Effect of different soil management measures on controlling soil nitrogen and phosphorus loss from slop farmland. Journal of Soil and Water Conservation, 2017, 31(1): 30-36, 42. doi: 10.13870/j.cnki.stbcxb.2017.01.006. (in Chinese)
doi: 10.13870/j.cnki.stbcxb.2017.01.006 |
|
[6] | 邵云, 李昊烊, 翁正鹏, 王璐, 李斯斯, 刘晴. 不同茬口对小麦养分利用和产量的影响. 麦类作物学报, 2019, 39(3): 356-363. |
SHAO Y, LI H Y, WENG Z P, WANG L, LI S S, LIU Q. Effects of different previous crops on nutrient utilization and yield of wheat. Journal of Triticeae Crops, 2019, 39(3): 356-363. (in Chinese) | |
[7] |
SANTACHIARA G, SALVAGIOTTI F, ROTUNDO J L. Nutritional and environmental effects on biological nitrogen fixation in soybean: a meta-analysis. Field Crops Research, 2019, 240: 106-115. doi: 10.1016/j.fcr.2019.05.006.
doi: 10.1016/j.fcr.2019.05.006 |
[8] |
乔俊, 颜廷梅, 薛峰, 杨林章, 卢萍. 太湖地区稻田不同轮作制度下的氮肥减量研究. 中国生态农业学报, 2011, 19(1): 24-31.
doi: 10.3724/SP.J.1011.2011.00024 |
QIAO J, YAN T M, XUE F, YANG L Z, LU P. Reduction of nitrogen fertilizer application under different crop rotation systems in paddy fields of Taihu Area. Chinese Journal of Eco-Agriculture, 2011, 19(1): 24-31. (in Chinese)
doi: 10.3724/SP.J.1011.2011.00024 |
|
[9] |
HUANG M B, SHAO M G, ZHANG L, LI Y S. Water use efficiency and sustainability of different long-term crop rotation systems in the Loess Plateau of China. Soil and Tillage Research, 2003, 72(1): 95-104. doi: 10.1016/S0167-1987(03)00065-5.
doi: 10.1016/S0167-1987(03)00065-5 |
[10] | 曹寒冰, 王朝辉, 师渊超, 杜明叶, 雷小青, 张文忠, 张璐, 蒲岳建. 渭北旱地冬小麦监控施氮技术的优化. 中国农业科学, 2014, 47(19): 3826-3838. |
CAO H B, WANG Z H, SHI Y C, DU M Y, LEI X Q, ZHANG W Z, ZHANG L, PU Y J. Optimization of nitrogen fertilizer recommendation technology based on soil test for winter wheat on Weibei dryland. Scientia Agricultura Sinica, 2014, 47(19): 3826-3838. (in Chinese) | |
[11] | 章孜亮, 刘金山, 王朝辉, 赵护兵, 杨宁, 杨荣, 曹寒冰. 基于土壤氮素平衡的旱地冬小麦监控施氮. 植物营养与肥料学报, 2012, 18(6): 1387-1396. |
ZHANG Z L, LIU J S, WANG Z H, ZHAO H B, YANG N, YANG R, CAO H B. Nitrogen recommendation for dryland winter wheat by monitoring nitrate in 1 m soil and based on nitrogen balance. Plant Nutrition and Fertilizer Science, 2012, 18(6): 1387-1396. (in Chinese) | |
[12] | 黄明. 基于收获期土壤测试和施肥位置优化的旱地小麦减肥增效研究[D]. 杨凌: 西北农林科技大学, 2017. |
HUANG M. Optimized fertilization for cutting down fertilizers and increasing efficiency of wheat production based on soil test at harvest and regulating fertilizer placement in dryland[D]. Yangling: Northwest A & F University, 2017. (in Chinese) | |
[13] | 中华人民共和国农业农村部.农业农村部办公厅关于推介发布2018年农业主推技术的通知. 北京: 农办科(2018) 12号, 2018年5月4日发布. |
The Ministry of Agriculture and Rural Affairs of the People's Republic of China. Notice of the General Office of the Ministry of Agriculture and Rural Affairs on the promotion and release of the main agricultural technologies in 2018. Beijing: Agriculture Office [2018] No. 12, issued on May 4, 2018. (in Chinese) | |
[14] | 黄倩楠, 王朝辉, 黄婷苗, 侯赛宾, 张翔, 马清霞, 张欣欣. 中国主要麦区农户小麦氮磷钾养分需求与产量的关系. 中国农业科学, 2018, 51(14): 2722-2734. |
HUANG Q N, WANG Z H, HUANG T M, HOU S B, ZHANG X, MA Q X, ZHANG X X. Relationships of N, P and K requirement to wheat grain yield of farmers in major wheat production regions of China. Scientia Agricultura Sinica, 2018, 51(14): 2722-2734. (in Chinese) | |
[15] | 黄倩楠, 党海燕, 黄婷苗, 侯赛宾, 王朝辉. 我国主要麦区农户施肥评价及减肥潜力分析. 中国农业科学, 2020, 53(23): 4816-4834. |
HUANG Q N, DANG H Y, HUANG T M, HOU S B, WANG Z H. Evaluation of farmers' fertilizer application and fertilizer reduction potentials in major wheat production regions of China. Scientia Agricultura Sinica, 2020, 53(23): 4816-4834. (in Chinese) | |
[16] | 袁家富, 徐祥玉, 赵书军, 彭成林, 熊又升, 曹卫东, 鲁剑巍. 绿肥翻压和减氮对烤烟养分累积、产量及质量的影响. 湖北农业科学, 2009, 48(9): 2106-2109. |
YUAN J F, XU X Y, ZHAO S J, PENG C L, XIONG Y S, CAO W D, LU J W. Effect of green manure and nitrogen level on nutrient accumulation, yield and quality of flue-cured tobacco. Hubei Agricultural Sciences, 2009, 48(9): 2106-2109. (in Chinese) | |
[17] |
王瑞宝, 闫芳芳, 夏开宝, 殷寿安, 李祖红, 张瑞勤, 杨冀, 强继业, 杨虹. 不同苕子绿肥翻压模式对烤烟产量和品质的影响. 安徽农业科学, 2010, 38(12): 6183-6188. doi: 10.13989/j.cnki.0517-6611.2010.12.106.
doi: 10.13989/j.cnki.0517-6611.2010.12.106 |
WANG R B, YAN F F, XIA K B, YIN S A, LI Z H, ZHANG R Q, YANG J, QIANG J Y, YANG H. Effects of different model of common vetch green manure turning under on yield and quality of flue-cured tobacco. Journal of Anhui Agricultural Sciences, 2010, 38(12): 6183-6188. doi: 10.13989/j.cnki.0517-6611.2010.12.106. (in Chinese)
doi: 10.13989/j.cnki.0517-6611.2010.12.106 |
|
[18] |
黄平娜, 秦道珠, 龙怀玉, 尹三宝, 张认连, 雷秋良, 杨全柳. 绿肥还田对烟田土壤培肥和烤烟产量品质的作用. 土壤通报, 2010, 41(2): 379-382. doi: 10.19336/j.cnki.trtb.2010.02.024.
doi: 10.19336/j.cnki.trtb.2010.02.024 |
HUANG P N, QIN D Z, LONG H Y, YIN S B, ZHANG R L, LEI Q L, YANG Q L. Effect of green manure return to field on soil fertility of tobacco fields and the yield and quality of tobacco. Chinese Journal of Soil Science, 2010, 41(2): 379-382. doi: 10.19336/j.cnki.trtb.2010.02.024. (in Chinese)
doi: 10.19336/j.cnki.trtb.2010.02.024 |
|
[19] |
郭云周, 尹小怀, 王劲松, 雷素芬, 戴茨华, 温三明, 杜东英, 刘建香. 翻压等量绿肥和化肥减量对红壤旱地烤烟产量产值的影响. 云南农业大学学报(自然科学版), 2010, 25(6): 811-816. doi: 10.16211/j.issn.1004-390x(n).2010.06.013.
doi: 10.16211/j.issn.1004-390x(n).2010.06.013 |
GUO Y Z, YIN X H, WANG J S, LEI S F, DAI C H, WEN S M, DU D Y, LIU J X. Effects of equal quantity green manure application and different fertilizer rates on yield and output value of flue-cured tobacco in red soil of upland in Yunnan. Journal of Yunnan Agricultural University (Natural Science), 2010, 25(6): 811-816. doi: 10.16211/j.issn.1004-390x(n).2010.06.013. (in Chinese)
doi: 10.16211/j.issn.1004-390x(n).2010.06.013 |
|
[20] | 李昊烊. 华北平原南部两熟区不同种植模式周年养分利用效率及土壤肥力质量评价[D]. 新乡: 河南师范大学, 2018. |
LI H Y. Evaluation of nutrient utilization efficiency and soil fertility quality in different planting patterns of double-cropping region in southern part of North China plain[D]. Xinxiang: Henan Normal University, 2018. (in Chinese) | |
[21] | 付蓉. 春油菜区绿肥替代氮肥的效应及潜力研究[D]. 杨凌: 西北农林科技大学, 2020. |
FU R. Effects and potential of nitrogen fertilizer replacement by green manure in spring rapeseed area[D]. Yangling: Northwest A & F University, 2020. (in Chinese) | |
[22] | 靖华, 崔欢虎, 王裕智, 马爱平, 亢秀丽. 茬口和施氮水平对不同基因型小麦产量及产量结构的影响. 陕西农业科学, 2007, 53(4): 3-5, 42. |
JING H, CUI H H, WANG Y Z, MA A P, KANG X L. Effects of stubble and nitrogen application level on yield and yield structure of wheat with different genotypes. Shaanxi Journal of Agricultural Sciences, 2007, 53(4): 3-5, 42. (in Chinese) | |
[23] | 张达斌. 黄土高原地区种植豆科绿肥协调土壤水分和氮素供应的效应及机理[D]. 杨凌: 西北农林科技大学, 2016. |
ZHANG D B. Effects of leguminous green manure on soil water and nitrogen supply and its mechanism in the loess plateau[D]. Yangling: Northwest A & F University, 2016. (in Chinese) | |
[24] | 王蓉芳, 黄德明, 崔勇. 我国不同地区土壤肥力监测报告(1988-1997)一东北区土壤肥力变化趋势及原因分析. 土壤肥料, 2000(6): 8-13. |
WANG R F, HUANG D M, CUI Y. The report of soil fertility monitoring in different areas of China(1988-1997). Soils and Fertilizers, 2000(6): 8-13. (in Chinese) | |
[25] |
SINGH A, CARSKY R J, LUCAS E O, DASHIELL K. Soil N balance as affected by soybean maturity class in the Guinea savanna of Nigeria. Agriculture, Ecosystems & Environment, 2003, 100(2/3): 231-240. doi: 10.1016/S0167-8809(03)00193-2.
doi: 10.1016/S0167-8809(03)00193-2 |
[26] |
杨宁, 赵护兵, 王朝辉, 张达斌, 高亚军. 豆科作物-小麦轮作方式下旱地小麦花后干物质及养分累积、转移与产量的关系. 生态学报, 2012, 32(15): 4827-4835. doi: 10.5846/stxb201107221085.
doi: 10.5846/stxb201107221085 |
YANG N, ZHAO H B, WANG Z H, ZHANG D B, GAO Y J. Accumulation and translocation of dry matter and nutrients of wheat rotated with legumes and its relation to grain yield in a dryland area. Chinese Journal of Plant Ecology, 2012, 32(15): 4827-4835. doi: 10.5846/stxb201107221085. (in Chinese)
doi: 10.5846/stxb201107221085 |
|
[27] |
ZHANG D, YAO P, NA Z, CAO W, ZHANG S, LI Y, GAO Y. Soil water balance and water use efficiency of dryland wheat in different precipitation years in response to green manure approach. Scientific Reports, 2016, 6: 26856. doi: 10.1038/srep26856.
doi: 10.1038/srep26856 |
[28] | 摄晓燕, 谢永生, 郝明德, 赵云英, 张义, 鞠艳. 黄土旱塬长期施肥对小麦产量及养分平衡的影响. 干旱地区农业研究, 2009, 27(6): 27-32. |
SHE X Y, XIE Y S, HAO M D, ZHAO Y Y, ZHANG Y, JU Y. Effect of long-term fertilization on wheat yield and nutrient balance in dryland of the Loess Plateau. Agricultural Research in the Arid Areas, 2009, 27(6): 27-32. (in Chinese) | |
[29] | 李继福, 鲁剑巍, 任涛, 丛日环, 李小坤, 周鹂, 杨文兵, 戴志刚. 稻田不同供钾能力条件下秸秆还田替代钾肥效果. 中国农业科学, 2014, 47(2): 292-302. |
LI J F, LU J W, REN T, CONG R H, LI X K, ZHOU L, YANG W B, DAI Z G. Effect of straw incorporation substitute for K-fertilizer under different paddy soil K supply capacities. Scientia Agricultura Sinica, 2014, 47(2): 292-302. (in Chinese) | |
[30] | 张鹏. 关中西部灌区冬小麦合理施肥技术研究[D]. 杨凌: 西北农林科技大学, 2010. |
ZHANG P. Study on balance fertilization in irrigation area of western Guanzhong plain[D]. Yangling: Northwest A & F University, 2010. (in Chinese) | |
[31] | 秦雪超, 潘君廷, 郭树芳, 翟丽梅, 王洪媛, 武淑霞, 刘宏斌. 化肥减量替代对华北平原小麦-玉米轮作产量及氮流失影响. 农业环境科学学报, 2020, 39(7): 1558-1567. |
QIN X C, PAN J T, GUO S F, ZHAI L M, WANG H Y, WU S X, LIU H B. Effects of chemical fertilizer reduction combined with biogas fertilizer on crop yield of wheat-maize rotation and soil nitrogen loss in North China Plain. Journal of Agro-Environment Science, 2020, 39(7): 1558-1567. (in Chinese) | |
[32] | 杨琳. 不同耕作方式下冬小麦-夏作物复种模式的相关研究[D]. 太谷: 山西农业大学, 2017. |
YANG L. Study on multiple cropping patterns of winter wheat and summer crops under different tillage methods[D]. Taigu: Shanxi Agricultural University, 2017. (in Chinese) | |
[33] |
彭云, 赵正雄, 李忠环, 董艳, 陈荣平, 王胱霖, 王永, 杨自控. 不同前茬对烤烟生长、产量和质量的影响. 作物学报, 2010, 36(2): 335-340.
doi: 10.3724/SP.J.1006.2010.00335 |
PENG Y, ZHAO Z X, LI Z H, DONG Y, CHEN R P, WANG G L, WANG Y, YANG Z K. Effects of different preceding crops on growth, yield and quality of flue-cured tobacco plant. Acta Agronomica Sinica, 2010, 36(2): 335-340. (in Chinese)
doi: 10.3724/SP.J.1006.2010.00335 |
|
[34] | 惠言. 华北平原以豆科为基础的轮作方式对农作物产量和土壤理化性质的影响[D]. 开封: 河南大学, 2017. |
HUI Y. Crop yields and soil physiochemical properties in response to legume-based cropping rotation in North China plain[D]. Kaifeng: Henan University, 2017. (in Chinese) | |
[35] |
LENSSEN A W, JOHNSON G D, CARLSON G R. Cropping sequence and tillage system influences annual crop production and water use in semiarid Montana, USA. Field Crops Research, 2007, 100(1): 32-43. doi: 10.1016/j.fcr.2006.05.004.
doi: 10.1016/j.fcr.2006.05.004 |
[36] |
ZHANG M K, FANG L P. Effect of tillage, fertilizer and green manure cropping on soil quality at an abandoned brick making site. Soil and Tillage Research, 2007, 93(1): 87-93. doi: 10.1016/j.still.2006.03.016.
doi: 10.1016/j.still.2006.03.016 |
[37] | 李可懿, 王朝辉, 赵护兵, 赵娜, 高亚军, LYONS G. 黄土高原旱地小麦与豆科绿肥轮作及施氮对小麦产量和籽粒养分的影响. 干旱地区农业研究, 2011, 29(2): 110-116, 123. |
LI K Y, WANG Z H, ZHAO H B, ZHAO N, GAO Y J, LYONS G. Effect of rotation with legumes and N fertilization on yield and grain nutrient contents of wheat in dryland of the Loess Plateau. Agricultural Research in the Arid Areas, 2011, 29(2): 110-116, 123. (in Chinese) | |
[38] |
DANGA B O, OUMA J P, WAKINDIKI I I C, BAR-TAL A. Chapter 5 legume-wheat rotation effects on residual soil moisture, nitrogen and wheat yield in tropical regions. Advances in Agronomy, 2009, 101: 315-349. doi: 10.1016/S0065-2113(08)00805-5.
doi: 10.1016/S0065-2113(08)00805-5 |
[39] |
MARTINIELLO P. Cereal-forage rotations effect on biochemical characteristics of topsoil and productivity of the crops in Mediterranean environment. European Journal of Agronomy, 2011, 35(4): 193-204. doi: 10.1016/j.eja.2011.06.002.
doi: 10.1016/j.eja.2011.06.002 |
[40] |
TIAN G, BADEJO M A, OKOH A I, ISHIDA F, KOLAWOLE G O, HAYASHI Y, SALAKO F K. Effects of residue quality and climate on plant residue decomposition and nutrient release along the transect from humid forest to Sahel of West Africa. Biogeochemistry, 2007, 86(2): 217-229. doi: 10.1007/s10533-007-9158-3.
doi: 10.1007/s10533-007-9158-3 |
[41] | 许广领. 麦秸还田配施氮肥对增加土壤有机质和提高夏大豆产量的效应. 江苏农业科学, 1997, 25(1): 49-51. |
XU G L. Effects of wheat straw returning combined with nitrogen fertilizer on increasing soil organic matter and increasing summer soybean yield. Jiangsu Agricultural Sciences, 1997, 25(1): 49-51. (in Chinese) | |
[42] | 杨云马, 孙彦铭, 贾良良, 黄少辉, 杨军芳, 迟吉娜.解决还田秸秆腐解争氮的秸秆处理方法: CN201710182526.X. 2017-06-30 [2021-3-1]. |
YANG Y M, SUN Y M, JIA L L, HUANG S H, YANG J F, CHI J N. The straw treatment method to solve the decomposition of straw returning to the field for nitrogen: CN201710182526.X. 2017-06-30 [2021-3-1]. (in Chinese) | |
[43] | 孙斌, 曹雯梅, 王应君, 王喜枝, 斐瑞杰, 晁建立, 王立秋, 刘松涛, 王立河. 不同土壤钾素对强筋小麦产量形成因子的影响. 中国农学通报, 2009, 25(16): 146-149. |
SUN B, CAO W M, WANG Y J, WANG X Z, PEI R J, CHAO J L, WANG L Q, LIU S T, WANG L H. Effects of potassium in the different soil types on the factors of yields formation of the strong gluten flour wheat. Chinese Agricultural Science Bulletin, 2009, 25(16): 146-149. (in Chinese) | |
[44] | 王伟, 孙帼妹, 李荣, 廖文强, 郭九信, 冯绪猛, 郭世伟. 枸溶性钾肥在盆栽稻麦轮作条件下的肥效研究. 南京农业大学学报, 2014, 37(6): 75-82. |
WANG W, SUN G M, LI R, LIAO W Q, GUO J X, FENG X M, GUO S W. Study on the effects of citrate acid-soluble potassium fertilizer in rice-wheat rotation system by pot experiment. Journal of Nanjing Agricultural University, 2014, 37(6): 75-82. (in Chinese) | |
[45] | 黄婷苗, 郑险峰, 王朝辉. 还田玉米秸秆氮释放对关中黄土供氮和冬小麦氮吸收的影响. 中国农业科学, 2015, 48(14): 2785-2795. |
HUANG T M, ZHENG X F, WANG Z H. Nitrogen release of returned maize straw and its effects on loess N supply and nitrogen uptake by winter wheat in Guanzhong plain. Scientia Agricultura Sinica, 2015, 48(14): 2785-2795. (in Chinese) | |
[46] | 葛玮健, 常艳丽, 刘俊梅, 张树兰, 孙本华, 杨学云. 塿土区长期施肥对小麦-玉米轮作体系钾素平衡与钾库容量的影响. 植物营养与肥料学报, 2012, 18(3): 629-636. |
GE W J, CHANG Y L, LIU J M, ZHANG S L, SUN B H, YANG X Y. Potassium balance and pool as influenced by long-term fertilization under continuous winter wheat-summer maize cropping system in a manural loess soil. Plant Nutrition and Fertilizer Science, 2012, 18(3): 629-636. (in Chinese) | |
[47] | 苏成国, 尹斌, 朱兆良, 沈其荣. 农田氮素的气态损失与大气氮湿沉降及其环境效应. 土壤, 2005, 37(2): 113-120. |
SU C G, YIN B, ZHU Z L, SHEN Q R. Gaseous loss of nitrogen from fields and wet deposition of atmospheric nitrogen and their environmental effects. Soils, 2005, 37(2): 113-120. (in Chinese) | |
[48] | 王秀斌. 优化施氮下冬小麦/夏玉米轮作农田氮素循环与平衡研究[D]. 北京: 中国农业科学院, 2009. |
WANG X B. Nitrogen cycling and balance in winter wheat-summer corn rotation system under optimized nitrogen management[D]. Beijing: Chinese Academy of Agricultural Sciences, 2009. (in Chinese) | |
[49] | 郭鑫年, 孙娇, 梁锦绣, 周涛, 田旭东, 陈刚. 栽培方式与施磷量对水稻养分累积、分配及磷素平衡的影响. 中国土壤与肥料, 2017(4): 104-111. |
GUO X N, SUN J, LIANG J X, ZHOU T, TIAN X D, CHEN G. Cultivation way and phosphorus fertilizer on rice nutrient accumulation, distribution and soil phosphorus balance. Soil and Fertilizer Sciences in China, 2017(4): 104-111. (in Chinese) | |
[50] | HARDARSON G. 植物基因型和氮肥对栽培大豆共生固氮的影响. 李淑娴, 译. 核农学通报, 1986(2): 42-44. |
HARDARSON G. Effects of plant genotype and nitrogen fertilizer on symbiotic nitrogen fixation in cultivated soybean. LI S X, translate. Bulletin of Nuclear Agronomy, 1986(2): 42-44. (in Chinese) | |
[51] |
LABERGE G, HAUSSMANN B, AMBUS P, HØGH-JENSEN H. Cowpea N rhizodeposition and its below-ground transfer to a co-existing and to a subsequent millet crop on a sandy soil of the Sudano-Sahelian eco-zone. Plant and Soil, 2011, 340(1/2): 369-382. doi: 10.1007/s11104-010-0609-6.
doi: 10.1007/s11104-010-0609-6 |
[52] | 谭德水, 江丽华, 谭淑樱, 徐钰, 郑福丽, 李国生, 刘兆辉. 湖区小麦-玉米轮作模式下不同施肥措施调控氮磷养分流失研究. 土壤学报, 2015, 52(1): 128-137. |
TAN D S, JIANG L H, TAN S Y, XU Y, ZHENG F L, LI G S, LIU Z H. Effects of fertilization controlling nitrogen and phosphorus loss from farmland under wheat-maize rotation in nansi lake region. Acta Pedologica Sinica, 2015, 52(1): 128-137. (in Chinese) | |
[53] | 赵忠, 佟立杰, 刘向阳. 怎样预防小麦倒伏. 农家参谋, 2007(9): 10. |
ZHAO Z, TONG L J, LIU X Y. How to prevent wheat lodging. The Farmers Consultant, 2007(9): 10. (in Chinese) | |
[54] |
董秀春, 韩伟, 杨洪宾. 倒伏对冬小麦病害发生情况和产量的影响. 河南农业科学, 2016, 45(4): 27-30. doi: 10.15933/j.cnki.1004-3268.2016.04.006.
doi: 10.15933/j.cnki.1004-3268.2016.04.006 |
DONG X C, HAN W, YANG H B. Effects of lodging on winter wheat diseases occurrence and yield. Journal of Henan Agricultural Sciences, 2016, 45(4): 27-30. doi: 10.15933/j.cnki.1004-3268.2016.04.006. (in Chinese)
doi: 10.15933/j.cnki.1004-3268.2016.04.006 |
|
[55] | 李淑鹏, 郭群鹏. 小麦倒伏原因与预防措施. 种子科技, 2010, 28(1): 49. |
LI S P, GUO Q P. Lodging reasons and preventive measures of wheat. Seed Science & Technology, 2010, 28(1): 49. (in Chinese) | |
[56] | 徐佰彪. 单季低氮投入条件下周年麦豆、麦玉氮肥运筹及利用差异[D]. 泰安: 山东农业大学, 2020. |
XU B B. Nitrogen fertilizer operation and utilization difference of annual soybean-wheat and maize-wheat under low nitrogen input of single season[D]. Taian: Shandong Agricultural University, 2020. (in Chinese) | |
[57] |
刘海涛, 陈一兵, 田静, 林超文. 成都平原不同种植模式下重金属镉污染风险和经济效益评价. 农业资源与环境学报, 2019, 36(2): 184-191. doi: 10.13254/j.jare.2018.0164.
doi: 10.13254/j.jare.2018.0164 |
LIU H T, CHEN Y B, TIAN J, LIN C W. Evaluation of economic benefits and cadmium pollution risk in different cropping system in Chengdu Plain, China. Journal of Agricultural Resources and Environment, 2019, 36(2): 184-191. doi: 10.13254/j.jare.2018.0164. (in Chinese)
doi: 10.13254/j.jare.2018.0164 |
|
[58] |
徐英. 大豆病虫草害发生规律及综合防治技术. 农业工程技术, 2018, 38(5): 25-26. doi: 10.16815/j.cnki.11-5436/s.2018.05.020.
doi: 10.16815/j.cnki.11-5436/s.2018.05.020 |
XU Y. Occurrence regularity and integrated control technology of soybean diseases, insect pests and weeds. Agricultural Engineering Technology, 2018, 38(5): 25-26. doi: 10.16815/j.cnki.11-5436/s.2018.05.020. (in Chinese)
doi: 10.16815/j.cnki.11-5436/s.2018.05.020 |
|
[59] | 王敬国, 林杉, 李保国. 氮循环与中国农业氮管理. 中国农业科学, 2016, 49(3): 503-517. |
WANG J G, LIN S, LI B G. Nitrogen cycling and management strategies in Chinese agriculture. Scientia Agricultura Sinica, 2016, 49(3): 503-517. (in Chinese) | |
[60] | 刘巽浩, 王爱玲, 高旺盛. 实行作物秸秆还田促进农业可持续发展. 作物杂志, 1998(5): 2-6. |
LIU X H, WANG A L, GAO W S. Returning crop straw to field promotes agricultural sustainable development. Crops, 1998(5): 2-6. (in Chinese) |
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