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轮作和施肥对半干旱区作物地上部生物量与土壤有机碳的影响
引用本文:郭胜利,吴金水,党廷辉. 轮作和施肥对半干旱区作物地上部生物量与土壤有机碳的影响[J]. 中国农业科学, 2008, 41(3): 744-751. DOI: 10.3864/j.issn.0578-1752.2008.03.015
作者姓名:郭胜利  吴金水  党廷辉
作者单位:1. 西北农林科技大学/中国科学院水利部水土保持研究所,陕西杨凌,712100
2. 西北农林科技大学/中国科学院水利部水土保持研究所,陕西杨凌,712100;中国科学院亚热带农业生态研究所,长沙,410125
基金项目:中国科学院知识创新工程项目 , 国家自然科学基金 , 中国科学院"西部之光"人才培养计划
摘    要: 【目的】了解轮作与施肥对土壤有机碳的影响是建立持续发展措施的关键。【方法】以长期定位试验(1984~2002)中的10个典型处理为基础,分析了地上部生物量和耕层(0~20 cm)土壤有机碳变化,探讨半干旱区轮作和施肥对0~20 cm土层有机碳的影响,10个典型处理分别为休闲(F);冬小麦连作体系中的3个施肥处理:不施肥(W/W+CK)、化肥(W/W+NP)、化肥有机肥(W/W+NP-FYM);冬小麦-冬小麦+糜子-豌豆轮作体系中的3个施肥处理:不施肥(W/WM/P +CK)、化肥(W/WM/P +NP)、化肥有机肥(W/WM/P+NP-FYM)处理;1个冬小麦—冬小麦-红豆草轮作处理(W/W/S+NP);人工苜蓿中2个施肥处理:不施肥(A/A+CK)和化肥有机肥处理(A/A+NP-FYM)。【结果】冬小麦连作体系(W/W)中,不施肥处理(W/W+CK)的地上部生物量平均为3.3 t•ha-1,化肥处理(W/W+NP)和化肥有机肥处理(W/W+NP-FYM)依次为7.5和11.2 t•ha-1;冬小麦-冬小麦+糜子-豌豆轮作(W/WM/P)体系中,不施肥处理(W/WM/P+CK)地上部生物量平均3.1 t•ha-1,W/WM/P+NP和W/WM/P+NP-FYM地上部生物量依次为7.1和8.3 t•ha-1;冬小麦-冬小麦-红豆草轮作(W/W/S+NP)为8.5 t•ha-1;苜蓿连作不施肥(A/A +CK)和化肥有机肥处理(A/A+NP-FYM)体系地上部生物量依次为4.1和5.0 t•ha-1。18年期间, W/W+CK处理土壤有机碳含量(6.7 g•kg-1)无显著变化,W/W+NP和W/W+NP-FYM处理提高13%和51%; W/WM/P+CK土壤有机碳含量(7.0 g•kg-1)无显著变化,W/WM/P+NP和W/WM/P+NP-FYM土壤有机碳提高7%和47%;W/W/S+NP处理土壤有机碳提高了29%;A/A+CK和A/A+NP-FYM处理有机碳提高了43%和71%。【结论】轮作与施肥显著影响土壤碳输入量,18年期间土壤蓄存的碳与累计输入土壤的有机碳存在显著的线性相关关系(SOC=1.65CReturned+5.95,R2=0.95**)。秸秆还田、草粮轮作或退耕还草是改善该地区土壤质量,实现土壤蓄存碳潜力的重要途径。

关 键 词:半干旱区  施肥  轮作  土壤有机碳
收稿时间:2007-05-11
修稿时间:2007-07-30

Effects of Crop Rotation and Fertilization on Aboveground Biomass and Soil Organic C in Semi-arid Region
GUO Sheng-li,WU Jin-shui,DANG Ting-hui. Effects of Crop Rotation and Fertilization on Aboveground Biomass and Soil Organic C in Semi-arid Region[J]. Scientia Agricultura Sinica, 2008, 41(3): 744-751. DOI: 10.3864/j.issn.0578-1752.2008.03.015
Authors:GUO Sheng-li  WU Jin-shui  DANG Ting-hui
Abstract:【Objective】to better understanding on the mechanisms in crop rotation and fertilization on SOC in cropping soils in semi-arid regions. 【Method】Changes in soil organic C (SOC) (0-20 cm) and aboveground biomass from 1984 to 2002 was investigated in ten cropping systems in a long-term field experiment established in 1984 on the Loess Plateau. 【Result】For the continuous winter wheat cropping system (W/W), the above ground biomass without fertilization (W/W+CK) was 3.7 t hm-2, the above ground biomass in W/W+NP and W/W+NPM was 2.2 and 3.4 times that in W/W+CK. For the wheat- wheat+millet-pea rotation system (W/WM/P), the above ground biomass without fertilization (W/WM/P +CK) was 3.2 t hm-2, the above ground biomass in W/WM/P +NP and W/WM/P +NPM was 2.3 and 2.7 times that in W/W+CK. The above ground biomass in W/W/S +NP, G/G +CK, and G/G +NPM was 8.6, 25.5, and 30.5 t hm-2, respectively. After 18 years SOC in continuous winter wheat without fertilization was near to the value (6.5 g kg-1) at the experiment beginning. SOC in treatments applied with N and P fertilizers increased by 7-13% after 18 years, compared with control (the without fertilizer). SOC in the treatments applied with farmyard manure, N, and P fertilizer increased by above 47% after 18 years. Compared with continuous wheat, SOC with wheat-grass rotation or continuous alfalfa increased by 10-25% after 18 years. There was a highly significant correlation between SOC and soil total N ( ,R2=0.88**). 【Conclusion】The amount of returned root-C to soil plays an important role in SOC in the semi-arid region. Incorporation of crop straw into soil, crop rotation with grass, and conversion of cultivated land into grassland could promote SOC accumulation and sequestration of CO2 in farmlands in the semi-arid region.
Keywords:Semi-arid region   Fertilization   Crop rotation   SOC
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