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1.
安徽省作物养分供需分析及化肥减施潜力研究 总被引:3,自引:0,他引:3
有机-无机相结合的农田养分管理模式是现阶段中国发展绿色农业的必由之路,因而开展有机、无机养分和作物养分需求的比较研究对促进养分资源的合理分配和施用具有重要的参考价值。本文采用文献调查和统计分析的方法,评估了安徽省16市2010—2016年主要有机肥(包括秸秆、粪便、绿肥和饼肥)的养分资源,明晰了安徽省农业生产中有机、无机养分投入现状,并根据农业种植结构开展了有机、无机养分和作物养分需求的差异和关系研究,最后探索了安徽省的化肥减施潜力。结果表明:安徽省2010—2016年平均有机肥养分资源为287.70万t,N、P_2O_5和K_2O分别为104.49万t、39.60万t和143.61万t,可基本满足作物的养分需求;但有机肥的当季利用率低,N、P_2O_5和K_2O的当季利用率分别为21.44%、19.91%和52.61%,有机肥N、P_2O_5和K_2O实际还田量仅占作物养分需求的20.74%、25.38%和63.61%,占农田养分总投入的比重分别为11.87%、10.27%和51.35%。全省N、P_2O_5、K_2O养分实际投入量(包括有机肥和化肥)是作物养分需求的1.75倍、2.47倍和1.24倍,有7个市的N和13个市的P_2O_5养分施用量超过作物需求的2倍,存在较高的环境污染风险。通过控制农业总养分输入,安徽省的化肥减施潜力为35.12%,N、P_2O和K_2O的减施潜力分别为21.28%、23.97%和78.61%。提高有机肥的当季利用率和发展冬季绿肥资源可进一步促进化肥减施。本研究可为安徽省化肥零增长和农牧业的绿色可持续发展提供数据参考。 相似文献
2.
长期施氮、磷、钾化肥对玉米产量及土壤肥力的影响 总被引:53,自引:3,他引:53
以1990年建立的国家褐潮土土壤肥力与肥料效益长期监测基地(北京昌平站)的长期肥料定位试验为研究平台,研究了不同施肥制度对玉米产量和土壤肥力的影响。结果表明,长期均衡地施NPK肥或NPK与有机肥配施,可以显著提高玉米产量和土壤有机质、全氮、全磷、速效氮、速效磷、速效钾等肥力指标,并能提高土壤微量元素的含量;而不均衡施肥(N、NK、NP、PK)导致相应的营养元素的耗竭。相关分析表明,在褐潮土上增施磷肥和有机肥对提高玉米产量具有重要的作用。 相似文献
3.
《Soil Science and Plant Nutrition》2013,59(3):318-327
Abstract We examined the relationship between nitrogen (N) and phosphate (P2O5) surplus derived from agriculture and river water quality. We selected two river basins; one was a paddy farming area (Omoigawa) and the other was an intensive livestock husbandry area (Nakagawa). Nitrogen and P2O5 surpluses, defined as the difference between their input and output on regional farmland, from farmland in Omoigawa were twice those of Nakagawa; the surpluses came mainly from chemical fertilizer use. Although N and P2O5 surpluses in Nakagawa were lower, Nakagawa had a large amount of non-utilized livestock excreta, twice the N surplus on farmland in Nakagawa. Residual N and P2O5 in the river basin, caused by surplus and non-utilized livestock excreta, were approximately 20% and 40%, respectively, higher in Nakagawa than in Omoigawa. Outflows of N and P2O5 to river water were higher in Omoigawa than Nakagawa. By excluding domestic sewage N and P2O5 in river water, we calculated the loads of non-point source N and P2O5. Non-point source N and P2O5 were higher in Omoigawa than Nakagawa. This inverse result might be caused by the different source of residual N (i.e. chemical N fertilizer or livestock excreta). 相似文献
4.
主要农作物秸秆养分资源现状及其肥料替代潜力分析——以安徽省为例 总被引:5,自引:0,他引:5
安徽省农作物秸秆资源丰富,充分利用秸秆养分资源对于农田养分投入的合理分配具有重要意义。评估全省主要农作物秸秆还田当季有效养分替代化肥潜力,可为安徽省减肥增效提供科学依据。本研究以安徽种植面积较大的主要农作物水稻、小麦、玉米、大豆、花生和油菜为研究对象,通过查阅安徽省统计数据和公开发表的文献资料,对2017年安徽省主要农作物秸秆数量、秸秆还田率以及还田当季养分利用率进行估算,明晰了全省化肥减施潜力。结果表明:2017年安徽省主要农作物秸秆资源量为4 699.9万t,秸秆资源分布上呈北部和中部较多、南部最少的特征。秸秆养分资源总量为124.8万t,N、P_2O_5和K_2O分别为38.1万t、11.4万t和75.3万t,分别占全省主要农作物养分需求的40.1%、32.1%和68.9%。理论上,秸秆全量还田,且养分充分利用的情况下,秸秆养分替代化肥潜力大。但秸秆养分N、P_2O_5和K_2O当季利用率分别为38.9%、52.3%和69.9%,实际秸秆N、P_2O_5和K_2O养分还田量仅占主要农作物养分需求的15.6%、16.8%和48.2%,分别占农田养分总投入量的8.6%、6.4%和41.4%。通过秸秆还田,全省可减施化肥63.3万t,减施比例为19.8%, N、P_2O_5和K_2O减施比例分别为11.4%、17.2%、40.7%。进一步提高秸秆还田率和当季养分释放率,是推进全省化肥减施增效的有利手段。 相似文献
5.
Muneshwar Singh Awadhesh K. Tripathi Kotha S. Reddy Kamalesh N. Singh 《植物养料与土壤学杂志》2001,164(6):691-696
Repeated application of phosphorus (P) as superphosphate either alone or in conjunction with cattle manure and fertilizer N may affect the P balance and the forms and distribution of P in soil. During 7 years, we monitored 0.5 M NaHCO3 extractable P (Olsen‐P) and determined the changes in soil inorganic P (Pi) and organic P (Po) caused by a yearly dose of 52 kg P ha—1 as superphosphate and different levels of cattle manure and fertilizer N application in a soybean‐wheat system on Vertisol. In general, the contents of Olsen‐P increased with conjunctive use of cattle manure. However, increasing rate of fertilizer nitrogen (N) reduced the Olsen‐P due to larger P exploitation by crops. The average amount of fertilizer P required to increase Olsen‐P by 1 mg kg—1 was 10.5 kg ha—1 without manure and application of 8 t manure reduced it to 8.3 kg ha—1. Fertilizer P in excess of crop removal accumulated in labile (NaHCO3‐Pi and Po) and moderately labile (NaOH‐Pi and Po) fractions linearly and manure application enhanced accumulation of Po. The P recovered as sum of different fractions varied from 91.5 to 98.7% of total P (acid digested, Pt). Excess fertilizer P application in presence of manure led to increased levels of Olsen‐P in both topsoil and subsoil. In accordance, the recovery of Pt from the 0—15 cm layer was slightly less than the theoretical P (P added + change in soil P — P removed by crops) confirming that some of the topsoil P may have migrated to the subsoil. The P fractions were significantly correlated with apparent P balance and acted as sink for fertilizer P. 相似文献
6.
施肥对青岛市设施蔬菜产量、净产值及土壤环境的影响 总被引:5,自引:0,他引:5
为进一步提高设施蔬菜的施肥效率, 减少肥料成本和对环境的污染, 对青岛市设施蔬菜施肥状况及其对产量、净产值和土壤环境的影响进行了研究。结果表明, 设施黄瓜和番茄氮、磷、钾肥施用均明显过量。黄瓜N、P2O5、K2O年施用量分别为1 841.5 kg·hm-2、864.0 kg·hm-2和1 978.7 kg·hm-2, 番茄N、P2O5、K2O年施用量分别为1 436.7 kg·hm-2、833.6 kg·hm-2和1 643.7 kg·hm-2。施肥中有机/无机肥料养分比例较为合理, 重视了有机肥的施用。年度施用N、P2O5、K2O量及其总量对年度蔬菜产量、净产值有明显影响, 存在着线性方程关系。随着年度施氮量的增加, 土壤NO3--N含量明显增加, 31.4%的农户设施蔬菜田土壤NO3--N含量居高和较高水平。土壤速效磷含量随年度施磷量的增加而增加, 74.3%的农户设施蔬菜田土壤速效磷为高水平。68.6%的农户设施蔬菜田土壤为酸性和微酸性, 有向酸性发展的趋势。生产中应适量减少氮、磷和钾肥投入, 推广测土配方施肥、水肥一体化、秸秆生物处理等技术, 促进青岛市设施蔬菜生产的可持续发展。 相似文献
7.
我国北方石灰性土壤上磷肥的肥效,很不稳定。近年来各地围绕着这一问题,进行了一些工作。大体看来,着重在肥料配合、施用方法、磷肥品种和作物种类对磷肥肥效影响的报道较多。至于土壤本身对于磷肥肥效的影响,研究的还少。 相似文献
8.
基于氮磷养分管理的畜禽场粪便匹配农田面积 总被引:3,自引:1,他引:3
该文基于种养平衡的生态模式,根据上海地区单位饲养规模畜禽场粪便产生量及其氮磷含量和各类农作物氮磷需求量,研究分析了基于氮磷养分管理的单位养殖规模畜禽场产生的粪便还田利用需匹配的三大类农作物种植面积。结果表明:在畜禽粪便作为农作物氮磷养分的来源和满足农作物氮养分需求的前提下,根据农作物对氮磷养分需求的木桶效应,各类畜禽粪便提供的磷养分总体上超过各类农作物对磷养分的需求量,具有流失污染环境的隐患。因此,提出了畜禽场粪便还田利用农田面积匹配应基于农作物磷养分需求,不足的氮养分可通过化肥氮给予补充,从而达到种养结合、环境友好的畜禽生态养殖。 相似文献
9.
不同施肥对河套灌区瓜田土壤养分及甜瓜生长和养分利用的影响 总被引:1,自引:1,他引:0
采用田间试验研究了内蒙古巴彦淖尔市河套灌区甜瓜一次性施肥、覆膜后灌水淋洗排盐传统种植模式下不同施肥对土壤养分及甜瓜产量、品质和养分利用的效应,不同施肥处理包括不施肥(CK)、常规施肥(CF,N 445.5 kg/hm~2,P_2O_5 399 kg/hm~2,K_2O 54 kg/hm~2)、优化减量施肥(RF,N 240 kg/hm~2,P_2O_5 150 kg/hm~2,K_2O 120 kg/hm~2)、控释肥(RSF,控释尿素N 240 kg/hm~2,P_2O_5 150 kg/hm~2,K_2O 120 kg/hm~2)、优化减量施肥+有机肥(RF+OM,增加有机肥15 t/hm~2)、控释肥+有机肥(RSF+OM)6个处理。结果表明:RSF在甜瓜生育期维持较高的土壤氮素水平,与单施化肥相比,RF+OM、RSF+OM处理可以维持土壤有机质含量,培肥土壤。各施肥处理与CK相比,甜瓜产量均显著增加(P0.05),RSF+OM处理产量显著高于CF处理,RF、RSF及RF+OM处理与CF处理相比产量和品质提高,但差异不显著。RF、RSF处理氮素利用效率比CF处理分别提高15.1,21.5个百分点,磷素利用效率分别提高20.4,18.8个百分点。化肥减施及施用控释肥对减少河套地区甜瓜农田灌溉退水中氮素汇入乌梁素海引起的面源污染具有重要的生态环境意义。 相似文献
10.
施用沼肥对茄子田节肢动物群落结构与茄子产量的影响 总被引:1,自引:0,他引:1
在等氮、等磷、等钾施肥条件下, 对茄子田分别施用化肥、沼肥加化肥减半、沼肥加饼肥, 研究施用沼肥对茄田节肢动物群落结构及茄子产量的影响。结果表明: 在节肢动物种类与数量上, 沼肥加饼肥处理茄子田的害虫种类为3.67±0.88 种·4m-2, 显著低于化肥处理和沼肥加化肥减半处理, 且沼肥加化肥减半处理显著低于化肥处理; 害虫个体数量为64.67±4.06 头·4m-2, 目标害虫桃蚜的数量为31.67±0.56 头·4m-2、二十八星瓢虫个体数量为8.00±0.15 头·4m-2, 显著低于化肥处理, 且与沼肥加化肥减半处理差异不显著; 蜘蛛类的个体数量为12.67±1.76 头·4m-2, 优势种天敌大腹园蛛的个体数量为7.67±0.67 头·4m-2, 显著高于化肥处理, 且与沼肥加化肥减半处理差异不显著。在节肢动物群落多样性上, 沼肥加饼肥处理茄子田的节肢动物群落多样性指数为1.68±0.04, 均匀度指数为0.53±0.003, 显著高于化肥处理和沼肥加化肥减半处理; 优势集中性指数为0.33±0.02, 显著低于化肥处理, 且与沼肥加化肥减半处理差异不显著。在节肢动物群落稳定性上, 沼肥加饼肥处理Ss/Si 指数为0.112 5±0.001 1, 显著高于化肥处理, 且与沼肥加化肥减半处理差异不显著; Sn/Sp 指数为1.650 0±0.005 5, 显著高于化肥处理和沼肥加化肥减半处理。沼肥加化肥减半、沼肥加饼肥处理的茄子产量与化肥处理相比无显著差异。 相似文献
11.
《Communications in Soil Science and Plant Analysis》2012,43(7):790-802
A field experiment was conducted to determine the effects of long-term applications of fertilizers and manure (1982 to 2003) and short-term irrigation level (2002 and 2003) on accumulation of nitrate nitrogen (NO3-N) in soil at Zhangye Oasis, China. The treatments included manure (M) and no manure (M0) as main plots; check (Ck), nitrogen (N), nitrogen + phosphorus (NP), and nitrogen + phosphorus + potassium (NPK) as subplots; and two amounts of irrigation (I1 and I2) as subsubplots. The application of N alone resulted in large NO3-N accumulation in soil, accounting for 6% of the applied N, and the lowest crop N recovery. Application of manure resulted in increased NO3-N in the soil profile compared to treatment with no manure, and the MN treatment resulted in the greatest amount of NO3-N in soil. Nitrogen applied with P and/or K reduced the amount of NO3-N in soil in both manure and no-manure treatments compared with N only. The unaccounted N was greatest (60%) in the N-alone treatment and lowest (30%) in the NPK treatment. When manure plus fertilizer were applied together, the unaccounted N ranged from 35%–42%. Based on results from only 2 years, greater amounts of irrigation (I2) caused greater leaching of NO3-N in the soil profile compared with I1, especially in treatments receiving manure. The implications of these findings are that these high amounts of accumulated NO3-N in surface and subsoil layers can be a potential threat to surface water, underground water, and air quality in the long run. This accumulated N in the soil profile can be used as a source of available N for future crops and should be recycled by using proper crop, soil, fertilizer, and water-management strategies/practices. The findings also suggest the need for further research to make an effective and efficient use of this accumulated NO3-N in the soil profile in order to save cost of N fertilizer application to future crops. 相似文献
12.
Katsuyuki Katayama Osamu Ito Joseph Jackson Adu-Gyamfi Theertham Pradymna Rao Esperanza V. Dacanay Tadakatsu Yoneyama 《Soil Science and Plant Nutrition》2013,59(1):143-150
A long-term experiment was carried out on a Vertisol from 1986 to 1992 to examine the combined effects of NPK fertilizers on yield using sorghum (Sorghum bicolor L. Moench cv. CSH 5) and short-duration pigeonpea (Cajanus cajan L. Millsp. cv. ICPL 87). The fertilizer treatments were as follows: 0 (no fertilization), N (150 kg N ha-1 ), P (65.5 kg P2O5 ha-1), K (124.5 kg K2O ha-1), and all possible combinations (NP, NK, PK, and NPK). In this study we continued this experiment during the period 1993 to 1994 and analyzed the crop yield response to fertilizers and the N balance. The amount of N derived from the atmosphere and fertilizer was estimated by the 15N natural abundance method and l5N isotope dilution method, respectively. A combined application of Nand P fertilizers gave the highest grain yield for the two crops under the 8th and 9th continuous croppings, unlike the application of K fertilizer. The values of total N for the two crops were significantly higher in the NP and NPK plots. These crops took up N mainly from soil. There was a significant positive relationship between the uptake of Ndff and Ndfs by each crop. Pigeonpea or sorghum took up more N from the soil in the N fertilizer plots than in the plots without N, suggesting that soil N fertility was enhanced and the amount of N supplied from soil increased in the plots with consecutive application of N fertilizer for 7 y. Even pigeonpea, which fixes atmospheric N inherently, needed N fertilizer to achieve high grain yield, suggesting that N fixation by the nodules was not always sufficient to meet the N requirements of the crop under these conditions. Although fertilizer N exerted a beneficial effect on plant growth and yield in the two crops, the values of fertilizer N recovery (FNR) by the two crops were considerably low. Therefore, it is suggested that the development of N fertilizer management which could maximize FNR of each crop should be promoted. 相似文献
13.
《Communications in Soil Science and Plant Analysis》2012,43(9):1084-1097
Application of manure on the basis of crop nitrogen (N) need increases the level of soil phosphorus (P), which is concern for deterioration of surface water quality. Soil samples were collected from a long-term field study to investigate the impact of crop N need–based manure application on soil P fractions and P adsorption and release kinetics. The field experiment was initiated in 1990. The soil was moderately well-drained Kennebec (fine silty, mixed, mesic Cumulic Hapludolls). No-tillage (NT) and conventional-tillage (CT) treatments were established in main plots, and subplots had five N treatments, including a control, and annual application of 84 or 168 kg N ha?1 applied as ammonium nitrate (NH4NO3) or beef (Bos taurus) manure. Manure at the high N application rate had significantly greater Bray 1 P under NT than under CT at 0- to 5-cm soil depth. Nitrogen fertilizer treatments were not significantly different than the control for Bray 1 P. Continuous application of manure at the high N rate significantly increased all Hedley P fractions; however, the major increase was observed in high bioavailable P pools [iron oxide (FeO) P and sodium bicarbonate (NaHCO3) Pi] and hydrochloric acid (HCl) P fractions. Soil organic P (Po) pools, including both labile (NaHCO3-Po) and resistant [sodium hydroxide (NaOH) Po], were increased by application of N from any source, suggesting biomass production and return of residue to soil surface was the responsible factor. Continuous application of manure based on N need also significantly increased FeO-P, NaHCO3-Pi, and HCl-P fractions at lower soil depths (5–15 and 15–30 cm). Results from the P-adsorption study suggest that ability of soil to adsorb additional P was decreased by manure application and that EPC0 was increased. Maximum desorbable P was observed for manure treatments under NT, although the release constant k (h?1) was significantly less than with fertilizer N treatments. 相似文献
14.
The rice–wheat cropping system (RWCS), producing about 5–10 Mg ha–1 y–1 of grain, is the backbone of food‐crop production in South‐East Asia. However, this system shows signs of fatigue as indicated by declining yields, negative nitrogen (N) balances, and reduced responses to applied fertilizer at some research centers. The return of rice and wheat residues can recycle up to 20%–30% of the N absorbed by the crops. However, their wide C : N ratio can temporarily immobilize native and applied N. To overcome this immobilization, wheat‐straw application was supplemented with the incorporation of Sesbania green manure and mungbean residues, and their effects on productivity, agronomic N efficiency, and system's apparent N balances were studied. Combining the application of wheat straw with Sesbania green manure or mungbean residues increased cereal grain yield and agronomic N efficiency and improved the generally negative apparent N balances. The combined use of wheat straw and mungbean produced an additional 0.5–0.6 t ha–1 protein‐rich grain and thus appears to be the most promising residue‐management option for rice–wheat cropping systems in South Asia, provided that the transition cropping season between wheat harvest and rice transplanting is long enough. 相似文献
15.
长期稻草还田对紫色水稻土肥力和生产力的影响 总被引:39,自引:5,他引:39
通过8年淹水条件下一季中稻的田间定位试验,研究了长期稻草还田以及稻草与不同化肥配合施用对紫色水稻土生产力和土壤肥力的影响。结果表明,稻草与N、P、K化肥配合施用能维持或提高紫色水稻土的生产力和土壤肥力;水稻获得了持续高产,土壤有机质和全氮含量提高,土壤磷的有效性增加,速效钾与试验前基本平衡。纯化肥处理尤其是N、NP、NK处理水稻产量、土壤氮和钾含量逐年降低,不能维持系统生产力和土壤肥力。稻草还田对翌年水稻具有显著的增产作用,8年平均稻草还田处理比对照增产39.5%,稻草的增产作用还随着稻草还田时间的延长而逐年升高。稻草还田携入的钾与化学钾肥具有相同的营养功效,稻草可替代部分化学钾肥。 相似文献
16.
J. A. Reijneveld P. A. I. Ehlert A. J. Termorshuizen O. Oenema 《Soil Use and Management》2010,26(4):399-411
The Netherlands has a high cumulative mean phosphorus (P) balance. In the 20th century, cumulative mean P surpluses were ca. 4500 kg P2O5/ha. The annual surpluses have levelled off because of manure application limits from 1984 onwards. We report the effect of soil type, land use, and manure policy on changes in soil P of fields in the Netherlands during the 20th century. We used data (>5 million soil P tests) from the soil analysis laboratory BLGG AgroXpertus. Our results show that soil P has increased on average to fairly high and high ratings. Differences between regions and between land use have remained high from the first records in the 1930s; on arable land the increase continued until the end of our study period while on grassland no changes are evident in the last decades. In general regions with high livestock density have high soil P status. Soil P increased in the order bulbfields < grassland < arable land < maize land < horticulture, and in the order loess < clay < peat < sand soils. Spatial variations in P values reflect more the market value of the crops and regional availability of animal manure than (fertilizer) recommendations. Manure policy since 1984 has resulted in increasingly tight restrictions on P application from manure and fertilizers, but the effects are not yet clearly reflected in changed trends in soil P. 相似文献
17.
F. A. Nicholson A. Bhogal D. Chadwick E. Gill R. D. Gooday E. Lord T. Misselbrook A. J. Rollett E. Sagoo K. A. Smith R. E. Thorman J. R. Williams B. J. Chambers 《Soil Use and Management》2013,29(4):473-484
MANNER‐NPK (MANure Nutrient Evaluation Routine) is a decision support tool for quantifying manure (and other organic material) crop available nutrient supply. The user‐friendly design of an earlier version of MANNER was retained, but in response to user and stakeholder feedback, additional functionality was included to underpin new and revised nitrogen (N) transformation/loss modules (covering ammonia volatilization, nitrate leaching and nitrous oxide/di‐nitrogen emissions, and organic N mineralization) and also to estimate manure phosphorus (as P2O5), potassium (as K2O), sulphur (as SO3) and magnesium (as MgO) supply. Notably, MANNER‐NPK provides N availability estimates for following crops through the mineralization of organic N. Validation of the crop available N supply estimates was undertaken by comparing predicted values with data from more than 200 field experimental measurements. For cattle, pig and poultry manures, there was good agreement (P < 0.001) between predicted and measured fertilizer N replacement values, indicating that MANNER‐NPK provides robust estimates of manure crop available N supply and N losses to the wider environment. 相似文献
18.
长期施肥对栗褐土有机碳含量及其组分的影响 总被引:12,自引:3,他引:12
【目的】作为土壤质量的重要指标,土壤有机碳及其组分在耕地生产力和作物产量方面发挥着重要作用。本文以25年长期定位施肥试验为依托,分析了不同施肥处理对栗褐土有机碳含量及其组分的影响,为调控农田土壤肥力及栗褐土有机碳库的管理提供科学依据。【方法】田间试验开始于1988年,设置8个施肥处理为不施肥(CK);单施氮肥(N);氮磷肥合施(NP);单施低量有机肥(M1);低量有机肥与氮肥合施(M1N);低量有机肥与氮磷肥合施(M1NP);高量有机肥与氮肥合施(M2N);高量有机肥与氮磷肥合施(M2NP)。于第25年玉米播种前,采集以上处理的耕层(0—20 cm)土壤样品。借助有机碳物理分组方法和化学分析方法,测定了土壤总有机碳和有机碳各组分的含量。【结果】长期施用不同肥料不同程度地提高了栗褐土总有机碳、游离态颗粒有机碳以及闭蓄态颗粒有机碳含量,其中有机肥与化肥配施尤其是高量有机肥与化肥配施的作用更加明显。与不施肥相比,高量有机肥与无机肥配施(M2N、M2NP)总有机碳含量增加了121.1%、166.8%,游离态颗粒有机碳增加了239.2%、359.2%,闭蓄态颗粒有机碳增加了288.4%、289.9%。单施氮肥(N)及有机肥与氮磷肥配施(M1NP、M2NP)可显著提高矿物结合态有机碳含量,增幅分别为27.8%、34.8%、33.3%。不施肥条件下,栗褐土有机碳中颗粒有机碳与矿物结合态有机碳所占的比例相当,长期施肥提高了颗粒有机碳特别是闭蓄态颗粒有机碳的比例,降低矿物结合态有机碳所占的比例,闭蓄态颗粒有机碳成为栗褐土有机碳的主要贮存库。相关分析表明,长期施肥条件下栗褐土游离态、闭蓄态颗粒有机碳含量之间及其与总有机碳含量之间均呈极显著正相关,矿物结合态有机碳含量与总有机碳及其他组分的有机碳之间均无明显相关。【结论】化肥、有机肥以及有机肥与化肥配施能够提高栗褐土游离态颗粒有机碳、闭蓄态颗粒有机碳以及总有机碳含量。高量有机肥与化肥配施更有助于栗褐土游离态、闭蓄态颗粒有机碳的积累,有利于土壤养分有效性的提高和有机碳品质的改善。氮肥单施、有机肥与氮磷肥配施则是提高矿物结合态有机碳含量的有效措施。 相似文献
19.
N. K. Fageria 《Journal of plant nutrition》2013,36(5):691-719
ABSTRACT The positive role of green manuring in crop production has been known since ancient time. Importance of this soil ameliorating practice is increasing in recent years because of high cost of chemical fertilizers, increased risk of environmental pollution, and need of sustainable cropping systems. Green manuring can improve soil physical, chemical, and biological properties and consequently crop yields. Furthermore, potential benefits of green manuring are reduced nitrate (NO3 ?) leaching risk and lower fertilizer N requirements for succeeding crops. However, its influence may vary from soil to soil, crop to crop, environmental variables, type of green manure crop used, and its management. Beneficial effects of green manuring in crop production should not be evaluated in isolation; however, in integration with chemical fertilizers. The objective of this article is to review recent advances in green manuring practice, in the context of potential benefits and drawbacks in use of this practice for annual crop production and sustain soil health and fertility. 相似文献
20.
渭北旱塬苹果园施肥现状分析评估 总被引:7,自引:0,他引:7
为了解陕西渭北旱塬苹果园栽培管理水平、施肥现状及果农养分资源投入存在的问题,选取陕西渭北旱塬300户果农,调查其苹果产量、施肥及其他管理措施等.结果表明,不同果农间苹果的产量和施肥量存在很大差异.两年来果农化肥平均纯氮用量为671.71kg·hm-2,适宜用量为240~360kg·hm-2,78.3%的果园氮肥投入过量;P2O5平均用量为338.21kg·hm-2,适宜用量为220~340kg·hm-2,投入量适中果农仅占调查样本的22.2%;K2O平均用量为240.70 kg·hm-2,适宜用量为160~240kg·hm-2,51.2%的果农施钾肥量偏低.调查数据与前人研究比较发现,由有机肥提供的氮磷钾养分占肥料总养分的比例下降趋势显著,由1994年的51%下降到现在的5.54%.果农传统的重氮偏磷轻钾施肥方式还未改变,施肥仍然以基肥为主,基肥比例达70%以上.为此提出调查区果园施肥应减少氮肥用量,提高氮肥利用率,适当增加磷肥,特别要注重钾肥和有机肥的投入,实现养分资源综合管理. 相似文献