重庆酸性紫色土马铃薯的高产优质与养分平衡

Over a period of two years,field experiments were conducted on four silty loam soils grown with foliar vegetable crops inculding Chinese cabbage(Brassica pekingensis Rupr.,cv.Lu-Bai 3),autumn greens (B.chinensis L.,cv.Piao-Geng-Bai),winter greens(B.var.rosularis Tsen et Lee,cv,You-Dong-Er),and summer greens(B.chinensis L.,cv.Zao-Shu5),respectively,Each eperimpent included one CK treatment without K,N and Pfertilizers applied,and four treatments with from low to high doses,0-300 kg hm^-2 for Chinese cabbage,0-150 kg hm^-2 for autumm and winter greens and 0-180 kg hm^-2 for summer greens,of K fertilizers in the form of sulfate of potash(SOP)applied together with N and P fertlizers,One treatment of K fertilizer in the form of muriate of potash(MOP) applied at high levels(150 or 180 g hm^-2)together with N and P fertilizers was included in the experiments of autumn,winter and summer greens ,respectively,in order to compare the effcts of SOP and MOP ,The market yields of the tested crops incresaed significantly with the increasing rate of K application.The crops supplied with K fertilizers yielded more stably as the CV% of their yields decreased with the rate of K application.K fertilization increased not only K contents but also the amounts of N ,P and K absorbed in shoots of autumn,winter and summer greens,which were atatistically significantly correalted to their yields.In can aslo be found that potassium improved the quality of the foliar vegetable crops as their dry mater contents were generally increased and Vc contents obviously increased and nitrate contents markedly decreased ,As compared to MOP,SOP was more effective on the yields and quality of autumn,winter and summer greens at the high levels of fertilization.     

施钾对有些茄科作物产量和品质的影响

Over a period of two years,field experiments were conducted on wto silty loam soils grown with four solanaceous vegetable crops of geggplant(var.serpentinum Bailey),tomato(var.commune Bailey),sweet pepper(var.grossum Bailey) and chilli (var.lengum Bailey),respectively,Each experiment included four treatments with from low to high doses,0-450 kg ha^-1 for eggplant ,tomato and sweet pepper,and 0-270 kg ha^-1 for chilli,of K fertilizers in the from of sulfate of potash(SOP) applied together with N and P fertilizers. One CK treatment without K,N and P fertilzers applied and one treatment of K fertilizer in the form of muriate of potash(MOP) applied at the high level(450kg ha^-1) together with N and P fertilizers were included in the experiments of eggplant,in order to compare the effects of SOP and MOP,The fruit yields of the tested crops increased significantly with the increasing rate of K application.The crops supplied with K fertilizers yielded more stably as the CV% of their yields decreased with the rate of K application,The K fertilizers yielded more stably as the CV% of their yields decreased with the rate of K application,The dry matter and vitamin C contents in fruits of tomato,sweet pepper and chilli,and the sugar content and the titratable acidity level of tomato fruits were increased,and the S/A ratio( ratio of sugar content to titratable acidity) of tomato fruits were decreased by K fertilization,indicating that K fertilization could improve the fruit quality of the solanaceous vegetable crops.However,the high rate of Kfertilizer might lower the dry matter and vitamin C contents of tomato fruits and sewwt pepper fruits.SOP was more effective than MOP in increasing the yield and quality of eggplant fruits at the high fertilization rate;therefore,the choice of applying SOP may be better for high levels of K fertilization.     

磷和钾对巴基斯坦西北部向日葵生长、产量的交互效应

Potassium (K) and phosphorus (P) applications improve growth, increase yield and yield components of sunflower (Helianthus annuus L.) on K and P deficient soils in Northwest Pakistan. A field experiment was conducted using sunflower cv. Hysun-33 at the New Developmental Research Farm of KPK Agricultural University, Peshawar, Pakistan, during summer 2006. The experimental design was a randomized complete block in split plot arrangements, with six levels of K (0, 25, 50, 75, 100, and 125 kg K ha^-1) as main plots and four levels of P (0, 45, 90, and 135 kg P ha^-1) as sub-plots with three replications. Sunflower yield and yield components responded positively to K and P fertilization but the magnitude of response varied with the levels of K and P. Days to flowering and maturity, grains per head, 1000-grain weight, shelling percentage, and grain yield increased tremendously in the K and P-fertilized plots as compared to the control with no K and P applied. The combined application of 100 kg K and 45 kg P ha^-1 significantly increased yield components, grain yield, harvest index, and shelling percentage of sunflower, suggesting that 100 kg K ha^-1 in combination with 45 kg P ha^-1 could maximize productivity of sunflower planted after wheat on the K and P deficient soils in the study area.     

K高效和K低效基因型水稻Na和K的吸收和分布与水稻生长及体内K利用率之间的关系

A pot experiment with two rice (Oriza sativa L.) genotypes differing in internal potassium use efficiency (IKUE) was conducted under different sodium (Na) and potassium (K) levels. Adding NaCl at a proper level enhanced rice vegetative growth and increased grain yield and IKUE under low potassium. Addition of higher rate of NaCl had a negative effect on the growth of the K-efficient rice genotype, but did not for the K-inefficient genotype. Under low-K stress, higher NaCl decreased IKUE of the K-efficient rice genotype but increased IKUE for the K-inefficient genotype. At tillering stage and under low-K stress, adding NaCl increased K and Na contents and decreased the ratio of K/Na for both genotypes. At harvesting stage under low-K stress, adding NaCl increased K and Na contents and K/Na ratio for the K-efficient genotype but decreased the K/Na ratio for the K-inefficient genotype. The accumulated Na was mostly deposited in the roots and sheaths. At tillering stage, the K and Na contents and the K/Na ratios in different parts for both genotypes decreased in the following sequence: K⁺ in sheaths > K⁺ in blades > K⁺ in roots; Na⁺ in roots > Na⁺ in sheaths > Na⁺ in blades; and K/Na in sheaths >> K/Na in roots. The K-efficient genotype had a lower K/Na ratio in roots and sheaths than the K-inefficient genotype under low-K stress. At harvesting stage, K and Na contents in grains were not affected, whereas K/Na ratio in the rice straws was increased for the K-efficient genotype but decreased for the K-inefficient genotype by Na addition. However, this was not the case under K sufficient condition.     

Assessing Nitrogen Fertilization Strategies in Winter Wheat and Cotton Crops in Northern Greece

The management of fertilizer application is crucial for agricultural production and environmental safety.The objective of this study was to assess the effciency of different fertilization strategies,applying fertilizers with and without nitrification inhibitors(NIs) in split application,in Greece.The assessment criteria used were based on crop yield,soil nitrogen(N)concentrations and economic effciency.For this purpose two crops(winter wheat and cotton)were seffected in order to explore the optimum fertilization strategy for each crop.Three treatments combining fertilizers with NIs were tested compared with conventional fertilization(CF).Slight differences in the quantity and the combination of fertilizers with NIs applied resulted in variable effects on crop yield,soil N and economic return.Split N application of 102 kg ha^-1,with half of the total amount applied at seeding,resulted in higher grain yield of winter wheat,lower NO₃^--N in soil and higher economic return.This result reveals the importance of N application at seeding in wheat crop.Fertilization strategy with 109.5 kg N ha^-1 and split P application resulted in higher cotton yield and higher economic profit.Split P application seemed to increase yield,even though it is not a common practise in the area.     

Environmental benefits and farmers' adoption of winter cover crops in the North China Plain

The introduction of cover crops into monoculture systems to improve soil health has been widely adopted worldwide. However, little is known about the environmental risks and application prospects of different cover crops in spring maize (Zea mays L.) monocultures proposed in the North China Plain. A pot experiment was conducted to evaluate the effects of different winter cover crops on subsequent maize yield, soil fertility, and environmental risks of nitrogen (N) loss, and a questionnaire survey was conducted to examine factors influencing farmers'' willingness to adopt cover crops in the North China Plain. Based on the same fertilization regime during the maize growing period, four winter cover crop treatments were set up, including bare fallow, hairy vetch (Vicia villosa Roth.), February orchid (Orychophragmus violaceus), and winter oilseed rape (Brassica campestris L.). The results indicated that winter cover crops significantly increased subsequent maize yield and soil organic carbon, total N, and microbial biomass carbon and N compared with the bare fallow treatment. The incorporation of cover crops led to a negligible increase in nitrous oxide (N₂O) emissions and had a very limited effect on ammonia (NH₃) emissions. The incorporation of February orchid and winter oilseed rape decreased nitrate leaching compared with the hairy vetch treatment in the maize growing season. The N losses via N₂O and NH₃ emissions and N leaching accounted for 71%–84% of the N surplus. However, yield increase and environmental benefits were not the main positive factors for farmers to accept cover crops. Financial incentive was rated by 83.9% of farmers as an “extremely important” factor, followed by other costs, when considering winter cover cropping. These results indicate that the environmental benefits depend on the type of cover crop. Maintaining high levels of soil fertility and maize yield, providing sufficient subsidies, and encouraging large-area cultivation of cover crops are critical measures to promote winter cover cropping in the North China Plain.     

施用氮钾肥对设施蔬菜产量和品质影响的研究

The application of large amounts of fertilizers, a conventional practice in northern China for the production of vegetable crops, generally leads to substantial accumulation of soil nutrients within a relatively short period of time. A fixed field experiment was designed to study the effects of nitrogen （N） and potassium （K） fertilizers applied to optimize the yield and quality of typical vegetable crops. Application of N and K fertilizers significantly increased the yields of kidney bean. The largest yields were obtained in the first and second years after application of 1 500 kg N and 300 kg K20 ha^-1. In the third year, however, there was a general decline in yields. Maximum yields occurred when intermediate rates of N and K （750 kg N and 300 kg K20 ha 1） were applied. However, no significant differences were observed in the concentrations of vitamin C （VC） in kidney bean among different years and various rates of fertilizer treatments. Yields of tomato grown in rotation after kidney bean showed significant responses to the application of N and K in the first year. In the second year, the yields of tomato were much lower. This suggested that the application of N fertilizer did not have any effect upon tomato yield, whereas application of K fertilizer did increase the yield. Application of K fertilizer was often associated with increased sugar concentrations.     

不同施肥管理对红壤性水稻土有机碳、氮形态的影响

A long-term experiment beginning in 1981 in Jinxian County of Jiangxi Province, subtropical China, was conducted in a paddy field under a double rice cropping system with four different fertilization regimes, including 1) no fertilizer as control (CK), 2) balanced chemical N, P, and K fertilizers (NPK), 3) organic manure using milk vetch and pig manure in the early and late rice growing season, respectively (OM), and 4) balanced chemical fertilizers combined with organic manure (NPKM). Samples (0-17 cm) of the paddy field soil, which was derived from Quaternary red clay, were collected after the late rice harvest in November 2003 for determination of total organic carbon (TOC) and total nitrogen (TN) and fractions of organic C and N. Results showed that TOC and TN in the NPKM and OM treatments were significantly higher than those in other two treatments (CK and NPK). Application of organic manure with or without chemical fertilizers significantly increased the contents of all fractions of organic C and N, whereas chemical fertilizer application only increased the contents of occluded particulate organic C (oPOC) and amino acid N. In addition, application of organic manure significantly enhanced the proportions of free particulate organic carbon (fPOC) and oPOC in total C, and those of amino sugar N and amino acid N (P < 0.01) in total N. In contrast, chemical fertilizer application only increased the proportions of oPOC and amino acid N (P < 0.05). There were no significant differences in either contents or proportions of soil organic C and organic N fractions between the NPKM and OM treatments. These indicated that organic manure application with or without chemical fertilizers played the most significant role in enhancing soil organic C and N quantity and quality in the paddy field studied.     

有机无机肥长期配合施用对江苏小麦玉米两熟制作物产量和土壤肥力的影响

Winter wheat-maize rotations are dominant cropping systems on the North China Plain, where recently the use of organic manure with grain crops has almost disappeared. This could reduce soil fertility and crop productivity in the long run. A 20-year field experiment was conducted to 1) assess the effect of inorganic and organic nutrient sources on yield and yield trends of both winter wheat and maize, 2) monitor the changes in soil organic matter content under continuous wheat-maize cropping with different soil fertility management schemes, and 3) identify reasons for yield trends observed in Xuzhou City, Jiangsu Province, over a 20-year period. There were eight treatments applied to both wheat and maize seasons: a control treatment (C); three inorganic fertilizers, that is, nitrogen (N), nitrogen and phosphorus (NP), and nitrogen, phosphorus and potassium (NPK); and addition of farmyard manure (FYM) to these four treatments, that is, M, MN, MNP, and MNPK. At the end of the experiment the MN, MNP, and MNPK treatments had the highest yields, about 7 t wheat ha^-1 and 7.5 t maize ha^-1, with each about 1 t ha^-1 more than the NPK treatments. Over 20 years with FYM soil organic matter increased by 80% compared to only 10% with NPK, which explained yield increases. However, from an environmental and agronomic perspective, manure application was not a superior strategy to NPK fertilizers. If manure was to be applied, though, it would be best applied to the wheat crop, which showed a better response than maize.     

海水处理下长春花体内生物碱含量增加

A sand culture experiment was conducted to determine the effects of different seawater (5% and 10%) treatments on plant growth, inorganic ions, indole alkaloid concentrations and yields of Catharanthus roseus, in an effort to increase the alkaloid yield by artificial cultivation. The total fresh and dry weights and tissue K⁺ concentrations decreased, but Na⁺ concentrations increased in the plant roots, stems and leaves of C. roseus under seawater stress as compared to the control. The concentrations and yields of vindoline, catharanthine, vinblastine and vincristine increased under seawater stress. The concentrations and yields of these alkaloids were higher in 5% seawater-treated plants than those in the 10% seawater-treated plants. Considering the industrial production, 5% seawater treatments could reduce the cost of producing alkaloid. In the control plants, the highest alkaloid concentrations reached a peak at 100 days after planting, suggesting that plant harvest must be optimized in terms of growth duration.     

冬小麦-夏玉米轮作体系中磷钾平衡的研究

对高肥力土壤大量施用磷钾肥冬小麦 /夏玉米轮作周期中作物产量、磷钾养分平衡等进行了研究。结果表明 ,高肥力土壤上连续大量施用磷钾肥条件下 ,传统施氮与优化施氮、秸秆还田与秸秆不还田对冬小麦和夏玉米产量、磷钾吸收量均无显著差异。在一个轮作周期中 ,冬小麦、夏玉米吸磷 (P)量分别为 22～25、18～19kg/hm2;吸钾(K)量分别为 14.7～16.6、96～112kg/hm2。在一个轮作周期后 ,土壤中的速效磷、速效钾含量变化不大。在施用磷肥 (P) 79kg/hm2 的条件下 ,无论秸秆还田与否磷素都有盈余 ,秸秆还田磷素 (P)盈余量为 46～47kg/hm2,秸秆不还田为 36～37kg/hm2;在施用钾肥 (K)75kg/hm2条件下 ,秸秆还田钾素 (K)盈余量为 22～31kg/hm2,秸秆不还田钾素 (K)亏缺量为 168～201kg/hm2,说明秸秆还田对于磷素与钾素特别是钾素的平衡有很大的作用     

Polyhalite as a sulfur source for fresh market tomato production in Brazil

Abstract

Polyhalite (PH), a naturally occurring multinutrient fertilizer containing potassium (K), calcium (Ca), magnesium (Mg), and sulfur (S), has improved tomato (Solanum lycopersicum L.) production in Brazil but a specific response by tomato to the S in PH is not confirmed. We compared four S sources – PH, sulfate of potash (SOP), sulfate of potash magnesia (SOPM), and single super phosphate (SSP) – applied at a target application rate of 40?kg?S?ha^?1 to fertilizers with no S (muriate of potash, MOP), and no K or S at commercial application rates in three commercial fields in Brazil with nitrogen (N), phosphorus (P), and K applied at recommended rates of 355, 500, and 200–300?kg?ha^?1, respectively. Consistent across locations, PH increased total yields over the control, MOP, and SSP, with SOP and SOPM higher than the control but not MOP or SSP. Only PH increased marketable yields compared to the control. Yields increased linearly with fruit numbers per plant which were higher for PH than the control or MOP, indicating higher fruit set in PH contributed to yield differences. While fertilizers increased leaf K and S concentrations and soil test K and SO₄–S, yield differences did not appear to be related solely to either K or S fertilization, nor to Mg fertilizers to which there was no response. Leaf and fruit Ca concentrations were higher in PH than the control and MOP at some locations suggesting Ca improved fruit set in PH. Results suggest tomato likely responded to the multinutrient content or solubility pattern of PH.     

冬季作物-双季稻轮作种植模式氮、磷、钾养分循环与产量可持续性特征

研究分析农业生态系统NPK养分循环和产量的可持续性,对实现养分资源优化管理和农业可持续发展具有重要意义。基于长期冬季作物-双季稻轮作种植定位试验,分析了2004—2017年冬闲-双季稻、马铃薯-双季稻、紫云英-双季稻、黑麦草-双季稻、油菜-双季稻等轮作种植模式早、晚稻产量的可持续性与稳定性;采用投入产出法（Input-Output Analysis）分析不同轮作种植模式NPK养分循环与平衡状况。结果表明：1）黑麦草-双季稻模式早稻产量变异系数与可持续性指数分别为0.09和0.81,说明稻田冬种黑麦草有利于促进早稻产量稳定性和可持续性的提高;油菜-双季稻模式晚稻产量变异系数与可持续性指数分别为0.07和0.82,说明稻田冬种油菜有益于晚稻产量稳定性和可持续性的提高;2）长期冬季作物-双季稻轮作种植未影响水稻产量和糙米NPK养分含量（P>0.05）;3）在稻田轮作种植周年内目前的NPK投入水平下,黑麦草-双季稻、紫云英-双季稻、油菜-双季稻、马铃薯-双季稻等模式均存在严重的K亏缺现象,K亏缺量分别为375.70 kg（K）·hm^-2、279.98 kg（K）·hm^-2、363.71 kg（K）·hm^-2、93.74 kg（K）·hm^-2;黑麦草-双季稻、紫云英-双季稻、油菜-双季稻等模式均在冬季作物种植季存在严重的K亏缺现象,K亏缺量分别为240.07 kg（K）·hm^-2、89.57 kg（K）·hm^-2、140.08 kg（K）·hm^-2,但马铃薯-双季稻模式在马铃薯种植季K盈余为255.21 kg（K）·hm^-2;同时黑麦草-双季稻模式和紫云英-双季稻模式均存在冬季作物种植季存在N亏缺,N亏缺量分别为59.47 kg（N）·hm^-2和89.17 kg（N）·hm^-2;油菜-双季稻模式和马铃薯-双季稻模式在晚稻种植季均存在严重的K亏缺现象,K亏缺量分别为45.93 kg（K）·hm^-2、124.33 kg（K）·hm^-2。冬季作物-双季稻轮作种植模式的养分循环是冬季作物和外部投入的NPK肥料共同驱动的养分循环,建议科学管理冬季作物和3季的NPK养分投入。     

不同施肥量对绿肥产量和养分积累的影响

大田试验条件下研究不同氮、磷、钾肥用量对绿肥[豆科绿肥紫云英(Astragalus sinicus L.)和禾本科绿肥看麦娘(Alopecurus aequalis Sobol.)]产量及养分积累量的影响。试验结果表明,施肥能显著增加绿肥产量,绿肥鲜草产量较不施肥处理增加42.8%~311.1%,与缺素处理相比,氮、磷、钾肥的增产率分别为57.1%~177.5%、27.8%~178.7%、14.2%~32.4%。两种绿肥的鲜草产量均随氮、磷、钾肥施用量的增加而增加,中、高水平的氮、磷肥用量下看麦娘的产量均高于紫云英,所有钾肥处理的看麦娘产量均高于紫云英。绿肥的养分积累量均随施肥量的增加而增加,中高水平的氮、磷肥用量下看麦娘的氮、磷积累量高于紫云英,不同钾水平下的看麦娘钾积累量均高于紫云英。氮、磷、钾肥用量分别为112.5 kg(N).hm?2、19.7 kg(P).hm?2、37.5 kg(K).hm?2时,两种绿肥总产量及碳、氮、磷、钾积累量最高,分别为49 424 kg.hm?2和3 212 kg(C).hm?2、151 kg(N).hm?2、19.8 kg(P).hm?2、156 kg(K).hm?2。此时看麦娘产量、碳、氮、磷、钾积累量分别占总量的59.0%、65.7%、66.3%和64.4%。紫云英田间自然洒种的看麦娘无成本投入且养分积累量高,不失为一种优质绿肥。     

Effects of Integrated Nutrient Management on Plant Crop and Successive First and Second Ratoon Crops of Sugarcane in Bangladesh

ABSTRACT

Experiments were carried out with the objectives to reduce the yield gap of plant and subsequent ratoon crops, evaluate juice quality, as well as soil properties. A 3-year field experiment was utilized to assess the use of organic materials and inorganic fertilizers on plant and subsequent ratoon crops. The organic materials included press mud, farmyard manure (FYM), and green manure (GM) of Sunhemp (Crotalaria juncea); the fertilizers were urea, triple superphosphate (TSP), muriate of potash (MOP), gypsum, and zinc sulphate. Farm yard manure was applied at a rate of 15 t ha^?1 accompanied with a chemical fertilizer (N₁₇₈P₅₃K₅₄S₂₆Zn_2.6kg ha^?1), which produced yield of 108.4, 96.8, and 73.5 t ha^?1 in plant cane, first, and second ratoon crops, respectively. Cane yields in the first were recorded in plant cane first and second ratoon crops, respectively. Cane yields in the first and second ratoon crops were 89.3 and 67.8% of plant crop, respectively. Juice quality parameters viz., Brix, pol and purity percent progressively increased in ratoons crops as compared to corresponding plant cane. The organic carbon, total N, and available P, K, &; S contents of soils increased slightly due to incorporation of organic materials. The result of the study revealed that 25% reduction of inorganic fertilizer with FYM or press mud at 15 t ha^?1 in plant cane and addition of 50% more N with same amount of fertilizer suggested for plant cane showed better yield and improved juice quality in first and second ratoon crops of sugarcane.     

华北山前平原农田土壤硝态氮淋失与调控研究

本文依托中国科学院栾城农业生态系统试验站小麦-玉米一年两熟长期定位试验, 应用土钻取土和土壤溶液取样器取水的方法, 研究了不同农田管理措施下土壤硝态氮的累积变化, 计算了不同氮肥处理通过根系吸收层的硝态氮淋失通量。结果表明, 小麦-玉米生长季土壤硝态氮累积量和淋失量随着施氮量的增加显著增加, 相同氮肥水平下增施磷、钾肥增加了作物的收获氮量, 施磷肥增加的作物收获氮量最高可达123kg·hm^-2·a^-1, 施钾肥增加的作物收获氮量最高为31 kg·hm^-2·a^-1。不同灌溉水平下0~400 cm 土体累积硝态氮随着灌溉量的增加而降低, 控制灌溉(小麦季不灌水, 玉米季灌溉1 水)、非充分灌溉(小麦季灌溉2~3 水, 玉米季按需灌溉)、充分灌溉(小麦季灌溉4~5 水, 玉米季按需灌溉)各处理剖面累积硝态氮量分别为1 698 kg·hm^-2、1148 kg·hm^-2 和961 kg·hm^-2。与非充分灌溉和充分灌溉处理相比, 控制灌溉在100~200 cm 土层硝态氮累积量显著高于其他层次, 2003~2005 年间控制灌溉剖面增加的硝态氮量占施肥总量的23%; 非充分灌溉处理剖面增加的硝态氮量占施肥总量的22%; 充分灌溉处理剖面增加的硝态氮量占施肥总量的47%。免耕措施降低了作物产量, 影响土壤水的运移, 增加了硝态氮的淋失风险。根据作物所需降低氮素投入(N 200 kg·hm^-2·a^-1), 增施磷、钾肥, 控制灌溉量是减少华北山前平原地区硝态氮淋失, 保护地下水的有效措施。     

秸秆还田对土壤氮素转化的影响

利用原状土柱田间培养法 ,测定了冬小麦、夏玉米农田土壤氮 (N)素的年净矿化量 ;利用氯仿熏蒸浸提茚三酮反应氮法测定了土壤微生物量氮的数量 ;利用连续流动分析仪测定了土壤表层无机氮的含量。结果表明 ,在冬小麦秸秆覆盖、夏玉米秸秆翻埋的土壤中 ,第 1年土壤氮净矿化量为N 210kg/hm2,第 2年为 179kg/hm2,2年的净矿化量均基本与同期施氮量相当。在秸秆不还田的土壤中 ,第 1年土壤氮净矿化量为N 164kg/hm2,第 2年为248kg/hm2,年际变化较大。翻埋玉米秸秆导致小麦季土壤表层无机氮数量增加 ,引发土壤氮矿化的正激发效应 ;表层覆盖小麦秸秆对玉米季土壤表层无机氮的影响不明显。秸秆还田后 ,每个生育期开始时 ,土壤微生物量氮比不还田土壤的增加 72 %～ 2.34% ,每个生育期结束时增加 34%～ 72%。在实施秸秆还田的最初 2年内 ,土壤微生物量但氮处于动态调整阶段 ,尚未达到新的稳定状态     

北京郊区冬小麦/夏玉米轮作体系中氮肥去向研究

采用田间微区15N示踪试验研究了肥料氮在冬小麦、夏玉米当季和后茬的去向。结果表明 ,在供试土壤的肥力水平和生产条件下 ,N 120kg/hm2 的施肥水平已经达到了较高产量 ,再增加氮肥施用量作物产量不再增加 ;其氮肥利用率和残留率均显著高于施氮量为N 360kg/hm2,损失率则远低于后者 ;在一季作物生长后仍有 20.9%～48.4%肥料氮残留于 0～100cm土层 ,这些残留的肥料氮在后茬的利用率不足 8% ,至施肥后第 2或第 3茬作物 ,仍有部分肥料氮残留于土壤。在低施氮量时 ,肥料氮以NO3--N残留的量很低 ,在高施氮量时 ,残留氮除以有机态、微生物态氮形式存在外 ,以NO3--N形式存在的比例也很高 ;在氮素损失途径中 ,淋洗损失可能占有相当重要的地位。