江苏省沿海地区棉花-水稻轮作研究

针对江苏沿海地区连作障碍现状,进行了棉花-水稻轮作耕作模式研究。结果表明棉花-水稻轮作可以改善土壤理化性状,大幅度地提高土地产出率,旱改水第一茬水稻比连作水稻增产17．5％,1hm^2农田纯收益增加2736元;同时减少农药使用,减轻农业面源污染,具有明显的经济和生态效益。     

不同复种油菜-轮作模式对马铃薯耗水特征及产量的影响

为探讨马铃薯不同轮作系统复种饲用油菜对马铃薯耗水特征及产量的影响,2017年在长期大田定位试验基础上选取4个处理,即马铃薯连作（CK）、马铃薯-小麦复种油菜-马铃薯（WPRP）、马铃薯-豌豆复种油菜-马铃薯（PPRP）、小麦-豌豆复种油菜-马铃薯（WPPR）,研究不同复种轮作模式对马铃薯耗水特性、水分利用效率和产量的影响。结果表明：马铃薯块茎增长期到收获期,CK 160~200 cm土壤水分含量和播前无差异,而WPRP、PPRP、WPPR 0~200 cm土壤各层含水量均大于播前,其中,块茎增长期到淀粉积累期,各层土壤平均含水量分别提高了43.02%、38.58%、24.63%,淀粉积累期到收获期,分别提高36.47%、33.63%和21.43%; 120~200 cm土壤各层含水量表现为：WPRP＞PPRP＞WPPR＞CK。WPRP、PPRP、WPPR耗水深度和贮水量均大于CK,其中,块茎增长期到淀粉积累期,耗水深度较CK分别增加42.86%、42.86%、42.86%,土壤贮水量较CK分别增加10.36%、12.91%和8.49%;淀粉积累期到收获期,耗水深度较CK分别增加了25.00%、12.50%、12.50%,土壤贮水量分别增加了12.56%、6.78%和2.95%,且WPRP贮水量较CK显著提高12.56%。块茎形成期、块茎增长期和淀粉积累期,WPRP耗水量较CK分别减少了16.2%、25.2%和5.1%。WPRP、PPRP、WPPR较CK产量分别增加33.51%、40.05%、14.47%,WUE分别提高54.83%、52.32%、19.78%。综上,马铃薯轮作系统复种油菜增加了降雨入渗深度、土壤贮水量和耗水深度,降低了阶段性耗水量,提高了马铃薯产量和WUE。且马铃薯-小麦复种油菜-马铃薯为该地区较佳的轮作模式。     

土壤秸秆注孔对土壤含水量及作物生长的影响

[目的] 研究土壤秸秆注孔对土壤含水量及作物生长的影响,为旱作农田增加雨水蓄集能力及提高水分利用效率提供理论依据。[方法] 开展玉米-小麦轮作田间试验,设置常规种植(CK)、土壤秸秆注孔2孔/m²(T₁),4孔/m²(T₂),8孔/m²(T₃)4个处理。[结果] 秸秆注孔所有处理均提高了整个试验期表层土壤含水量。T₂,T₃处理提高了收获期深层土壤含水量,试验结束时两者底层土壤(60-80 cm)含水量较CK分别提高了29.19 %和28.18 %。秸秆注孔处理提高了作物株高、经济产量和生物量,以及降水利用效率和水分利用效率,T₂,T₃处理的提高效果最明显,且彼此差异不显著。[结论] 秸秆注孔具有保水性能和增产能力,根据成本和效果综合考虑,推荐秸秆注孔4孔/m²(T₂)作为优选处理。     

Interactions between phosphorus availability and microbes in a wheat–maize double cropping system: A reduced fertilization scheme

Mechanisms controlling phosphorus(P) availability and the roles of microorganisms in the efficient utilization of soil P in the wheat–maize double cropping system are poorly understood. In the present study, we conducted a pot experiment for four consecutive wheat–maize seasons(2016–2018) using calcareous soils with high(30.36 mg kg^–1) and low(9.78 mg kg^–1) initial Olsen-P content to evaluate the effects of conventional P fertilizer application to both wheat and maize(Pwm) ...     

Bound amino acids in humic acids from arable cropping systems

We investigated the varying concentrations of bound amino acids in humic acids (HA) extracted from soils under both crop rotation and continuous cropping of rye. The experiment was created in 1957. Since then, winter rye had been grown continuously and also the sequence of the 7 yr rotation had been started: potato, spring barley, alfalfa, alfalfa, oil seed rape, winter rye, and winter rye. Soils were fertilized with NPK and manure. Continuous cropping of rye increased total acidity of soils and the contents of carboxylic and phenolic groups in HA. The total amounts of the bound amino acids in HA from soils under crop rotation were higher than from continuous cropping of rye. Fertilization with NPK increased the contents of bound amino acids more than manure. Neutral amino acids dominated in all samples of HA, and basic amino acids had the lowest concentrations. In both types of cultivation, glutamic acids, glycine, alanine, valine, and lysine dominated. The proline contents in HA from continuous rye cropping were higher than in HA from soils under crop rotation. The concentrations of β‐alanine and lysine were higher in HA from crop rotation indicating a higher microbial biomass since these compounds are typical constituents of bacteria cell walls.     

Soil microbial biomass carbon and nitrogen as affected by cropping systems

 The impacts of crop rotations and N fertilization on microbial biomass C (C_mic) and N (N_mic) were studied in soils of two long-term field experiments initiated in 1978 at the Northeast Research Center (NERC) and in 1954 at the Clarion-Webster Research Center (CWRC), both in Iowa. Surface soil samples were taken in 1996 and 1997 from plots of corn (Zea mays L.), soybeans (Glycine max (L.) Merr.), oats (Avena sativa L.), or meadow (alfalfa) (Medicago sativa L.) that had received 0 or 180 kg N ha^–1 before corn and an annual application of 20 kg P and 56 kg K ha^–1. The C_mic and N_mic values were determined by the chloroform-fumigation-extraction method and the chloroform-fumigation-incubation method, respectively. The C_mic and N_mic values were significantly affected (P<0.05) by crop rotation and plant cover at time of sampling, but not by N fertilization. In general, the highest C_mic and N_mic contents were found in the multicropping systems (4-year rotations) taken in oats or meadow plots, and the lowest values were found in continuous corn and soybean systems. On average, C_mic made up about 1.0% of the organic C (C_org), and N_mic contributed about 2.4% of the total N (N_tot) in soils at both sites and years of sampling. The C_mic values were significantly correlated with C_org contents (r≥0.41**), whereas the relationship between C_mic and N_tot was significant (r≤0.53***) only for the samples taken in 1996 at the NERC site. The C_mic : N_mic ratios were, on average, 4.3 and 6.4 in 1996, and 7.6 and 11.4 in 1997 at the NERC and CWRC sites, respectively. Crop rotation significantly (P<0.05) affected this ratio only at the NERC site, and N fertilization showed no effect at either site. In general, multicropping systems resulted in greater C_mic : C_org (1.1%) and N_mic : N_tot (2.6%) ratios than monocropping systems (0.8% and 2.1%, respectively). Received: 9 February 1999     

Dryland plant biomass and soil carbon and nitrogen fractions on transient land as influenced by tillage and crop rotation

Soil and crop management practices may alter the quantity, quality, and placement of plant residues that influence soil C and N fractions. We examined the effects of two tillage practices [conventional till (CT) and no-till (NT)] and five crop rotations [continuous spring wheat (Triticum aestivum L.) (CW), spring wheat–fallow (W–F), spring wheat–lentil (Lens culinaris Medic.) (W–L), spring wheat–spring wheat–fallow (W–W–F), and spring wheat–pea (Pisum sativum L.)–fallow (W–P–F)] on transient land previously under 10 years of Conservation Reserve Program (CRP) planting on the amount of plant biomass (stems + leaves) returned to the soil from 1998 to 2003 and soil C and N fractions within the surface 20 cm in March 2004. A continued CRP planting was also included as another treatment for comparing soil C and N fractions. The C and N fractions included soil organic C (SOC), soil total N (STN), microbial biomass C and N (MBC and MBN), potential C and N mineralization (PCM and PNM), and NH₄-N and NO₃-N contents. A field experiment was conducted in a mixture of Scobey clay loam (fine-loamy, mixed, Aridic Argiborolls) and Kevin clay loam (fine, montmorillonitic, Aridic Argiborolls) in Havre, MT, USA. Plant biomass yield varied by crop rotation and year and mean annualized biomass was 45–50% higher in CW and W–F than in W–L. The SOC and PCM were not influenced by treatments. The MBC at 0–5 cm was 26% higher in W–W–F than in W–F. The STN and NO₃-N at 5–20 cm and PNM at 0–5 cm were 17–1206% higher in CT with W–L than in other treatments. Similarly, MBN at 0–5 cm was higher in CT with W–L than in other treatments, except in CT with W–F and W–P–F. Reduction in the length of fallow period increased MBC and MBN but the presence of legumes, such as lentil and pea, in the crop rotation increased soil N fractions. Six years of tillage and crop rotation had minor influence on soil C and N storage between croplands and CRP planting but large differences in active soil C and N fractions.     

几种保护性耕作措施在黄土高原旱作农田的实践

自2001年起,甘肃农业大学的研究者在甘肃省定西市安定区李家堡镇布设了不同保护性耕作措施下春小麦→豌豆和豌豆→春小麦轮作系统的定位试验,以研究免耕不覆盖(NT)、传统耕作秸秆还田(TS)、免耕秸秆覆盖(NTS)、传统耕作地膜覆盖(TP)和免耕地膜覆盖(NTP)等保护性耕作措施在黄土高原旱作农田生态系统中的效应。本文就近10年依托该试验获取的相关研究结果进行综述,重点阐述特定土壤、气候、农作制度下土壤理化性状、土壤微生物及其酶活性、土壤温室气体排放、作物生理生态等对上述几种保护性耕作措施的响应。初步得到免耕秸秆覆盖措施有助于形成良好的土壤结构、减少土壤侵蚀、改善土壤持水特性、提高土壤养分利用效率、改善土壤微生物区系、增强作物光合效能、增加作物产量等结论,对筛选出当地适宜的耕作模式、改善区域土壤质量、促进农业可持续发展有重要意义。在此基础上,提出目前该项研究存在的问题和今后重点关注的方向:1)保护性耕作土壤碳循环机理;2)覆盖方式的创新;3)温室气体排放测量方法的改进与完善。     

不同施肥措施对小麦－玉米轮作中作物产量和土壤肥力的影响

A 15-year field experiment was carried out in Henan Province, China, to study the effects of different fertilization practices on yield of a wheat-maize rotation. Fertilizers tested contained N alone (N), N plus P (NP) or plus P and K (NPK), all with or without manure (M). Different long-term fertilization practices affected the yields under the rotation system of wheat and maize differently and the effects on yields was in a general trend of MNPK＞MNP＞MN＞NPK＞NP＞M＞N＞the control. The average contribution rate of soil fertility to the highest yield was 37.9%, and the rest 62.1% came from fertilizer applications. The yield effects of the chemical fertilizers were in the order of N＞P＞K and were increased by application of manure.Balanced fertilization with multielement chemical fertilizers and manure can be effective in maintaining growth in agricultural production. Combined application of chemical fertilizer and organic manure also increased the content of soil organic matter.     

施氮和灌溉管理下作物产量和土壤生化性质

氮和水对作物生长非常重要,研究施氮和灌溉管理下作物产量、土壤性质以及它们的关系对我国农业科学有重要意义。本文以中国科学院封丘农业生态试验站为平台,研究了施氮(每季施氮150 kg·hm?2、190 kg·hm?2、230 kg·hm?2、270 kg·hm?2,以不施氮为对照)和灌溉(灌溉量达到0~20 cm、0~40 cm、0~60 cm土壤的田间持水量,以雨养为对照)管理下小麦-玉米轮作系统作物产量和土壤生化性质,以及它们之间的关系。研究结果表明,150~270 kg·hm?2施氮量对2008年、2009年玉米产量和2009年、2010年小麦产量无显著影响;灌溉对2010年玉米产量无显著影响,而2008年、2009年玉米产量随灌溉量增大而增加。尽管2008—2011年小麦产量随灌溉量变化趋势不一致,但与雨养相比灌溉提升了小麦产量。施氮在不同程度上提升了土壤全氮和速效氮含量、脱氢酶和脲酶活性、微生物生物量碳、基本呼吸和硝化势,稍微降低了土壤pH并大幅降低了速效磷含量(降幅48.7%~51.6%);灌溉提升了土壤全氮含量和脱氢酶活性,降低了全钾含量、脲酶活性、基本呼吸、硝化势。多元回归分析显示,某些土壤生化性质(全氮、溶解性有机碳、速效磷含量及微生物生物量碳氮、呼吸熵、硝化势)与2009年、2010年玉米产量很好地线性拟合。综上,土壤生化性质因施氮和灌溉发生不同程度的分异,因施氮和灌溉而分异的土壤生化性质能部分地鉴定作物产量。本研究方法可为产量主导因子的筛选及产量估算模型的建立提供一定参考依据。