长期施肥水稻土氮素剖面分布及温度对土壤氮素矿化特性的影响   总被引：12，自引：1，他引：12  

马力  杨林章  颜廷梅  王建国  李斗争  殷士学 《土壤学报》2010,47(2):286-294

利用太湖地区26a的水稻土长期定位试验,研究了长期施肥对水稻土剖面氮素分布和C/N的影响,分析了10℃和30℃下不同施肥处理土壤氮素矿化过程的差异,拟合了30℃下土壤累积矿化量与有效积温的方程式。结果表明:(1)长期施肥使表层土壤氮素累积量明显增加,0～20cm土层,施有机肥处理的含氮量普遍高于施化肥处理。20～30cm土层,化肥氮+磷处理(CNP)、化肥氮+磷+钾处理(CNPK)、秸秆+氮处理(CRN)及不施肥对照CK的含氮量高于有机肥+氮+磷处理(MNP)、有机肥+氮+磷+钾处理(MNPK)、秸秆+有机肥+氮处理(MRN)和仅施有机肥处理(M0),而40～50cm土层含氮量差异较小;(2)施有机肥或秸秆还田使表层土C/N值有降低趋势。0～10cm表层土壤的C/N,CNPK>MNPK,CK>M0,而施秸秆处理MRN的C/N最低。20～50cm土层,施有机肥处理的C/N普遍高于化肥处理,施化肥土壤下层的有机质分解程度较高。(3)在30℃下,土壤矿化过程达到稳定状态需要时间较短,且累积矿化量较高。在10℃下,培养后期的矿化速率高于30℃下的速率,但累积矿化量较低,低温条件引起了土壤氮素矿化率的降低。土壤累积矿化量与有效积温的关系符合有效积温方程式(p<0·01),K值较接近反应矿化初期各处理的矿化潜力,n值的差异反应MRN、MNP以及CNPK、CNP处理在矿化后期有更高潜力。  相似文献   

长期施用有机肥对土壤及不同粒级中有机磷含量与分配的影响   总被引：28，自引：0，他引：28  

徐阳春  沈其荣  茆泽圣 《土壤学报》2003,40(4):593-598

通过在黄棕壤上开展的 14年田间定位试验研究稻 -麦水旱轮作下长期施用有机肥对土壤及不同粒级中有机磷的影响。结果表明 :与不施肥的对照和单施化肥相比 ,有机肥与化肥长期配合施用能显著增加土壤有机磷总量 ;就有机磷的形态而言 ,长期施肥主要增加中等活性有机磷的含量。土壤不同粒级中总有机磷的含量顺序为 :0～ 2 μm >2～ 10 μm >5 0～ 10 0 μm >10～ 5 0 μm。从分配系数上看 ,土壤有机磷各形态中以对植物有效性较高的中等活性有机磷占绝对优势 ,对植物有效性最高的活性有机磷仅占 3 %左右。长期施用有机肥后使分配在活性、中等活性组分中有机磷的比例增加 ,而稳定性有机磷中的比例下降。  相似文献   

长期施肥对黑土氮素矿化与硝化作用特征的影响   总被引：9，自引：1，他引：8  

王斯佳  韩晓增  侯雪莹 《水土保持学报》2008,22(2):170-174

采用培养试验研究了长期施肥对黑土矿化与硝化作用特征的影响。结果表明,黑土的矿化作用和硝化作用都较强,长期施肥对黑土矿质态氮量有显著影响,施用化肥能够增加矿质态氮量,在施用NPK肥基础上增施有机肥,矿质态氮量进一步增加,表明在土壤管理上如果增加有机肥的施用,可以提高土壤的供氮能力。长期施肥黑土的硝化率与施N肥相关性较好,其次是施用PK肥。有机肥与无机肥配施可使土壤硝化率显著提高;硝化率高低取决于黑土可矿化态氮素含量和土壤pH。  相似文献   

稻麦轮作条件下长期不同土壤管理对供氮能力的影响   总被引：3，自引：0，他引：3  

高亚军  黄东迈  朱培立 《植物营养与肥料学报》2000,6(3):243-250

通过种植了 25季的长期定位试验研究了稻麦轮作条件下不同土壤耕作方式和培肥制度对土壤供氮能力的影响。结果表明 ,不论免耕还是耕翻 ,0～5cm土壤的氮素释放均较持久 ,5～15cm土壤的氮素释放耕翻较免耕持久。休闲的 0～5cm土壤在免耕条件下其氮素矿化势和短期矿化氮量均远远高于耕翻 ,5～15cm和 15～30cm土壤在免耕和耕翻间则相差不大。施肥的3个处理 0～ 5cm土壤氮素矿化势和短期矿化氮量有免耕高于耕翻的趋势 ,而 5～ 15cm土层免耕明显低于耕翻 ,15～ 30cm土壤免耕与耕翻没有差异。有机肥与化肥配施的免耕与耕翻土壤中 25季作物吸氮量几乎无差异 ,不施肥和单施化肥处理的免耕土壤中作物吸氮量低于耕翻土壤。免耕条件下 ,有机肥配施化肥土壤的供氮能力仅低于休闲土壤 ,不施肥土壤最低 ;耕翻条件下 ,有机肥配施化肥土壤的供氮能力最高。各培肥处理间的差异主要表现在 0～ 5cm土层。  相似文献   

长期不同比例有机肥-化肥配施下红壤性水稻土氮素矿化特征          下载免费PDF全文

吕真真  吴向东  刘益仁  蓝贤瑾  侯红乾  冀建华  刘秀梅 《中国土壤与肥料》2021,(4):47-53

土壤有机氮的矿化是土壤氮素肥力的重要指标之一,也是影响作物产量至关重要的因素。以33年长期定位试验为依托,对红壤性双季稻田土壤氮累积、矿化动力学特征等进行系统研究。定位试验始于1984年,选取其中5个施肥处理:不施肥(CK),施氮磷钾肥(NPK),施50%化肥+50%有机肥(50F+50M),施30%化肥+70%有机肥(30F+70M),施70%化肥+30%有机肥(70F+30M),于2017年早稻种植前采集耕层(0～20 cm)土壤样品,采用淹水密闭间歇淋洗法,对土壤氮矿化量和速率进行测定,并采用一级动力学方程拟合土壤氮矿化势(N_0)、矿化速率常数(k)等。结果表明,长期施肥显著提高土壤有机碳、全氮、碱解氮含量,以有机无机肥配施提升效果最为显著,且随有机肥投入量增加而递增,30F+70M处理较NPK处理显著提高铵态氮、硝态氮及总矿质氮含量,分别提高了47.0%、64.6%和49.7%。连续施肥33年后,施肥显著提高了土壤净矿化速率和土壤矿化氮释放量,排序为30F+70M50F+50M70F+30MNPKCK,配施有机肥较施化肥处理显著提高了土壤矿化氮累积释放量和土壤氮素矿化率,分别是化肥处理的2.70和1.41倍。长期施肥均显著提高了土壤氮素矿化势(N_0),提高幅度为65.9%～196.0%,配施30%有机肥(70F+30M)较施化肥处理(NPK)可显著增加水稻土氮素矿化势,降低氮矿化速率常数。土壤有机质、全氮、碱解氮及铵态氮含量显著影响N_0、N_0/N、累积矿化量及矿化率,土壤氮矿化速率常数(k)与C/N呈现极显著负相关。长期化学氮肥与低比例有机肥配施,使水稻土供氮缓慢而持久,在水稻的生长发育过程中能够不断地补充氮素。  相似文献   

基于长期定位试验的水稻土氮素剖面分布及养分供应特性研究     

马力  杨林章  慈恩  王岩  程月琴  沈明星  殷士学 《水土保持学报》2008,22(4)

基于已持续26年的水稻土长期定位试验,研究了长期施肥对水稻土剖面氮素迁移分布和C/N的影响,不同施肥方式下土壤氮素矿化曲线和硝化强度变化,以及累积矿化量与有效积温的关系,结果表明:(1)长期施肥使土壤表层氮素累积量明显增加,土壤剖面含氮量分布曲线呈"S"形。0-20 cm土层,施有机肥处理的含氮量普遍高于施化肥处理,20-30 cm土层,化肥氮 磷处理(CNP)、化肥氮 磷 钾处理(CNPK)、秸秆 化肥氮处理(CRN)和不施肥对照C0的含氮量高于有机肥 氮 磷处理(MNP)、有机肥 氮 磷 钾处理(MNPK)、秸秆 有机肥 氮处理(MRN)和仅施有机肥处理(M0),而40-50 cm土层含氮量差异较小;(2)土壤矿化曲线在前期差异明显,7 d后的矿化量普遍达最大,28 d后趋于稳定,施有机肥处理7 d后的矿化量明显高于施化肥处理。土壤累积矿化量与有效积温的关系符合有效积温方程式,矿化常数K和n值反映了施有机肥土壤氮素的矿化潜力较大,而施化肥土壤的矿化过程达稳定状态需更长时间;(3)长期施肥使土壤的硝化强度明显提高,施有机肥处理普遍高于施化肥处理。MNPK最高,比C0提高了6.44倍,秸秆还田处理CRN高于CNP和CNPK;(4)施有机肥或秸秆使表层土C/N值有降低趋势。0-10 cm表层土壤的C/N值,CNPK>MNPK,C0>M0,而秸秆还田处理MRN的C/N值最低。20-50cm土层,施有机肥处理的C/N普遍高于化肥处理,施化肥土壤下层的有机质分解程度较高。  相似文献   

辽河平原地区长期施肥水稻土氮素矿化及其模拟的研究   总被引：5，自引：2，他引：3  

张玉玲  DANG Xiu-li  虞娜  JI Jing-hong  张玉龙 《土壤通报》2008,39(4)

采用长期淹水密闭——间歇淋洗培养方法和分析手段,研究了辽河平原地区连续16年长期不同施肥(不施氮肥、氮肥、氮肥+有机肥、氮肥+有机肥+放萍)水稻土氮素的矿化过程。结果表明长期不同施肥水稻土氮矿化量为N15.61～103.57mgkg-1,为全N的1.25%～5.66%;氮肥+有机肥处理土壤氮矿化量最高,占全氮比率最大,而氮肥处理土壤氮矿化量最低,占全氮的比率最小;氮矿化量与全氮、有机质、C/N之间呈显著相关关系(P<0.05)。选择有效积温式(EATM);一级反应式(One-pool模型);带常数项的一级反应式(Special模型),对实验数据进行拟合。非线性拟合结果表明Special模型明显优于One-pool模型和有效积温式(EATM)。分析表明Special模型能更为准确地描述长期不同施肥措施下水稻土有机氮素的矿化。  相似文献   

长期不同施肥处理对水稻土有机碳分布变异及其矿化动态的影响   总被引：5，自引：0，他引：5  

马力  杨林章  慈恩  程月琴  王岩  沈明星  殷士学 《土壤学报》2009,46(6):1050-1058

基于持续26 a的太湖地区水稻土长期定位试验,研究了长期施肥对水稻土剖面有机碳分布、有机碳密度和变异幅度、及有机碳矿化动态的影响。结果表明:(1)长期施肥使水稻土表层有机碳含量显著升高,施有机肥和秸秆还田较单施化肥更能促进表层有机碳累积。施化肥处理10~30 cm土层有机碳含量相对稳定,施有机肥处理20~40 cm土层有机碳含量相对稳定;(2)0~25 cm和0~50 cm土层,施有机肥处理的有机碳密度均高于施化肥处理,有机肥+氮+磷处理(MNP)和化肥氮+磷+钾处理(CNPK)的有机碳密度均为最高,秸秆+化肥氮处理(CRN)高于有机肥+秸秆+氮处理(MRN)。各施肥处理0~25 cm和25~50 cm土层有机碳变异幅度均高于对照C0。施有机肥处理的有机碳密度变异幅度均高于施化肥处理。化肥氮+磷处理(CNP)和有机肥+氮+磷+钾处理(MNPK)有机碳密度的变异性最大;(3)各处理土壤有机碳矿化速率在培养第2~4天均达到最大,第3周后达到稳定,有机肥处理的最大矿化速率均高于化肥处理,各处理平均矿化速率为CO255.36~75.46 m l kg-1d-1,稳定矿化速率为CO210~20 m l kg-1d-1。在8周培养期内,施有机肥处理的累积矿化量始终大于施化肥处理,有机肥+秸秆+氮处理(MRN)的累积矿化量最大,各施肥处理土壤的矿化强度和稳定矿化率仍保持稳定。  相似文献   

不同施肥制度下褐土及其微团聚体内酸解性氮分布变化     

张电学  韩志卿  王秋兵  吴素霞  常连生  谢新宇  杨会民 《水土保持学报》2011,25(6):114-118,123

通过8年定位试验,研究不同施肥制度下褐土及其徽团聚体内酸解性氦变化规律,从各级微团聚体全氮和酸解性氮储量角度探讨不同施肥制度下土壤氮素肥力的变化实质.结果表明,不施肥处理主要是由于10～50μm粒级全氯和酸解性氮储量降低而造成土壤氮素肥力下降;单施常量NPK化肥处理有同样趋势;增量NPK化肥处理主要通过提高<10μm粒级全氯和酸解性氯储量使土壤全氮和酸解性氮含量不下降;有机肥(物)料配施常量NPK化肥处理则主要通过增加大粒级特别是10～50μm粒级全氮和酸解性氮储量、降低<10μm粒级酸不溶性氮储量而使土壤氮素肥力水平得到提高,猪厩肥效果好于玉米秸和麦秸直接还田.采用有机肥(物)料配施常量NPK化肥是改善土壤氮素肥力的有效措施.  相似文献   

长期施肥对黑土呼吸过程的影响   总被引：26，自引：2，他引：26  

诸葛玉平  张旭东  刘启 《土壤通报》2005,36(3):391-394

土壤呼吸是土壤有机C矿化分解,释放无机养分的重要生物化学过程。对公主岭地区长期有机肥(不施有机肥、施中量和高量有机肥处理)与化肥(不施化肥、施用N、NP、NPK化肥)配合施用的12个处理的黑土进行室内好气培养(196天),采用一级动力学方程模拟土壤的呼吸过程,结果表明,有机肥和化肥的施用能显著增加土壤呼吸释放的CO2 -C的累积量,提高土壤中潜在矿化的有机碳含量及其占土壤有机质的比例,促进土壤有机质中无机养分的释放,有利于提高土壤养分的有效性,改善黑土的供肥状况。有机肥与NPK化肥配合施用效果更为明显。  相似文献   

Comparison of biological and chemical methods to predict nitrogen mineralization in animal wastes   总被引：1，自引：0，他引：1  

M. D. Serna  F. Pomares 《Biology and Fertility of Soils》1991,12(2):89-94

Summary Biological and chemical methods to predict the level of plant-available N in animal manure were investigated under laboratory and growth-chamber conditions. Two biological methods (maize cultivation in pots and incubation of soil-waste mixtures) and four chemical methods (N extraction by autoclaving, 0.5 N KMnO₄, pepsin, and 6 N HCl) were compared for their accuracy in determining the availability of N in 10 samples of animal manure applied to soil. The autoclaving, permanganate, and pepsin methods were able to predict N availability in this group of wastes. Total N mineralized in a soil amended with different samples of animal manure ranged from 0 to 311 mg N kg^-1 soil. Expressed as a percentage of organic N added to the soil, mineralized N range from 0 to 39%. The poultry manure samples gave higher mineralization rates than the other types of manure tested. In general, mineralized N became immobilized during the incubation process, except for the second poultry manure sample, which showed an initially rapid then a a slow release of mineral N, and pig manure sample 2, which showed a slow initial rate, followed by a rapid increase, and then a slow rate of N release. The first-order exponential model used was able to describe the pattern of N mineralization in pig manure sample 2, poultry manure sample 2 but not the other samples.  相似文献   

华中地区旱地氮素矿化的能力   总被引：2，自引：0，他引：2  

CHEN Jia-Zhou  QIN Hua-Chang 《土壤圈》1995,5(2):127-133

Nitrogen mineralization potentials of 15 soil samples were studied by the methods of soil aerobic incubation, and the correlation between the potentials and the amounts of nitrogen taken up by rye grass (Lolium multiflorum Lam.) in pot culture was calculated. The soils were collected from Hubei Province in Central China. Soil nitrogen mineralization potentials (N_O) were calculated and optimized by a quick-BASIC program. N_O ranged from 60 mg kg^-1 to 340 mg kg^-1, which accounted for 9.1% to 34.6% of the total nitrogen content. Among the examined soils, yellow-brown soil collected from Wuhan had the largest N_O and brown-red soil from Xianning had the smallest one. The mineralization rate constants (k) ranged from 0.00556 d^-1 to 0.01280 d^-1, in average 0.00882 d^-1. Chao soil from Wuhan had the greatest k while yellow-cinnamon soil from Zhaoyang had the smallest one. There were apparent differences between mineralization parameters (N_O and k) optimized and non-optimized ones. Optimized N_O had a better correlation than non-optimized N_O with the amount of nitrogen accumulated in the aerial parts of rye grass. N_O, N_O × k and N_t(accumulated mineralized nitrogen within time t) could be used as indexes of soil nitrogen supply. Among them N_t was the best, which was significantly correlated with the amounts of nitrogen accumulated in the aerial parts of rye grass harvested at three different times.  相似文献   

Microbial and soil parameters in relation to N mineralization in soils of diverse genesis under differing management systems   总被引：4，自引：1，他引：3  

J. Z. Burket  R. P. Dick 《Biology and Fertility of Soils》1998,27(4):430-438

 Oregon soils from various management and genetic histories were used in a greenhouse study to determine the relationships between soil chemical and biological parameters and the uptake of soil mineralized nitrogen (N) by ryegrass (Lolium perenne L.). The soils were tested for asparaginase, amidase, urease, β-glucosidase, and dipeptidase activities and fluorescein diacetate hydrolysis. Microbial biomass carbon (C) and N as well as metabolic diversity using Biolog GN plates were measured, as were total soil N and C, pH, and absorbance of soil extracts at 270 nm and 210 nm. Potentially mineralizable N (N₀) and the mineralization rate constant (k) were calculated using a first order nonlinear regression model and these coefficients were used to calculate the initial potential rate of N mineralization (N₀ k). Except for Biolog GN plates, the other parameters were highly correlated to mineralized N uptake and each other. A model using total soil N and β-glucosidase as parameters provided the best predictor of mineralized N uptake by ryegrass (R ² =0.83). Chemical and biological parameters of soils with the same history of formation but under different management systems differed significantly from each other in most cases. The calculated values of the initial potential rate of mineralization in some cases revealed management differences within the same soil types. The results showed that management of soils is readily reflected in certain soil chemical and biological indicators and that some biological tests may be useful in predicting N mineralization in soils. Received: 31 January 1997  相似文献   

Mineralization of organic sulfur and its importance as a reservoir of plant-available sulfur in upland soils of north China     

W. Zhou  S. T. Li  H. Wang  P. He  B. Lin 《Biology and Fertility of Soils》1999,30(3):245-250

 An open incubation technique was used to measure S mineralization in a range of upland soils of north China. Six mineralization patterns were examined, and a soil S-exhaustion experiment with ryegrass (Lolium multiflorum L.) was conducted to investigate the availability of various organic S pools to plants. For all of the 12 soils tested, the release of S as SO₄ ^2– was curvilinear with time, and during a 28-week incubation at 30  °C the amount of S mineralized ranged from 14.0 mg S kg^–1 soil to 37.4 mg S kg^–1 soil. A first-order model and Gompertz model appeared to best describe S mineralization. Examination of the soils after incubation revealed the bulk of the mineralized S was mainly derived from the C-bonded S pool, while the majority of mineralized S under soil S exhaustion by ryegrass was derived from the HI-reducible S pool. Received: 9 July 1998  相似文献   

SOIL POTENTIALLY MINERALIZABLE NITROGEN AND ITS RELATION TO RICE PRODUCTION AND NITROGEN NEEDS IN TWO PADDY RICE SOILS OF CHILE     

J. Hirzel  K. Cordero  C. Fernández  J. Acuña  M. Sandoval  E. Zagal 《Journal of plant nutrition》2013,36(3):396-412

Rice is an important food in the world population's diet. As nitrogen (N) is the principal nutrient associated with the yield and its mineralization from the soil contribute to plant-available N, the use of biological or chemical methods are necessary for its estimation. Two paddy rice soils types of Chile were used for laboratory (anaerobic incubation) and field experiments: Quella (Vertisol) and Quilmen (Inceptisol), fertilized with three N rates - ureas of 0, 80 and 160 kg ha^?1. The mineralized inorganic N was measured and potentially mineralizable N (N₀) was calculated based on the first-order kinetic model. N mineralization was positively affected by N fertilization, but only affected grain yield in the Quilmen soil with a negative effect on the crop N recovery. Furthermore, crop N uptake was related with the incubation time at 14 and 21 days for the Quilmen and Quella soils respectively. Finally an N optimization model for those soils was proposed.  相似文献   

可溶性有机碳的含量动态及其与土壤有机碳矿化的关系   总被引：101，自引：5，他引：101       下载免费PDF全文

李忠佩  张桃林  陈碧云 《土壤学报》2004,41(4):544-552

采用我国东部地区的黑土、潮土、黄泥土和红壤水稻土,通过室内分析和培育试验,研究了不同水分条件下可溶性有机碳含量及土壤有机碳矿化量的动态变化,分析了淹水导致可溶性有机碳含量的变化程度及其对土壤有机碳矿化量的可能影响.结果表明,可溶性有机碳含量与水土比呈直线相关关系,累计提取量随浸提时间增加,单次提取量随提取次数降低.在8周的培养期内,淹水处理的可溶性有机碳含量均显著高于好气处理,黄泥土一号高46%～117%(p＜0.05),黄泥土二号高112%～285%(p＜0.001),潴育黄泥田高21%～73%(p＜0.05).在培养的前3周(黄泥土一号)或前4周(黄泥土二号),不同水分处理的日均土壤有机碳矿化量有极显著差异(p＜0.01),其后,差异不显著;但在整个培养过程中,淹水处理的累计土壤有机碳矿化量均极显著高于好气处理(p＜0.01).培养过程中,土壤有机碳的矿化速率动态与可溶性有机碳含量的变化趋势相一致,特别是黄泥土二号,可溶性有机碳含量与土壤有机碳日均矿化量达到极显著的相关关系(好气相关系数0.942,淹水相关系数0.975).结果还表明,两种黄泥土有机碳矿化量(包括日均矿化量和累计矿化量)的差异并不与全土有机碳含量相关,而主要是其可溶性有机碳含量明显不同所致.因此,对于原土可溶性有机碳含量较高的土壤,淹水显著提高可溶性有机碳量是导致其土壤有机碳矿化量高于好气处理的主要原因.  相似文献   

Nitrogen Mineralization as Influenced by Different Organic Manures in an Inceptisol in the Foothill Himalayas     

Vikas Sharma  Sajad H. Mir  Anil Sharma 《Communications in Soil Science and Plant Analysis》2016,47(2):194-202

Nitrogen-use efficiency can be enhanced through an understanding of the nitrogen (N) mineralization behavior of organic sources. An incubation study was conducted to assess the impact of organic manures on N mineralization. The manures, farmyard manure (FYM), Leucaena leucocephala, and poultry manure, were applied to the soil alone or along with urea. There was a rapid increase in the amount of mineral N released with a peak appearing either at 14 days (+urea treatments) or 21 days (manure only) of aerobic incubation. Thereafter the net N mineralized decreased gradually and levelled off beyond day 56. Overall the cumulative net N mineralized after 98 days of incubation was in the order urea > Leucaena + urea > poultry manure + urea _> FYM + urea > Leucaena > poultry manure > FYM > zero N. The potentially mineralizable N (N₀) was lower in treatments where urea was not applied.  相似文献   

Comparative Study on Disturbed and Undisturbed Soil Sample Incubation for Estimating Soil Nitrogen-Supplying Capacity     

《Communications in Soil Science and Plant Analysis》2012,43(20):2371-2382

Application of nitrogen (N) fertilizers without knowing the N-supplying capacity of soils may lead to low N use efficiency, uneconomical crop production, and pollution of the environment. Based on the results from pot experiments treated with soil initial nitrate leaching and native soil, long-term alternate leaching aerobic incubation was conducted to study the disturbed and undisturbed soil N-supplying capacity of surface soil samples in 11 sites with different fertilities on the Loess Plateau. The results indicated that the entire indexes and ryegrass (Lolium perenne) uptake N with soil initial nitrate leaching showed a better correlation than that without soil initial nitrate leaching. Except the correlation coefficients for soil initial nitrate (NO₃ ^?)-N and mineral N extracted by calcium chloride (CaCl₂) before aerobic incubation with ryegrass uptake without soil initial nitrate leaching, the correlation coefficients for soil initial NO₃ ^?-N and mineral N extracted by CaCl₂ before aerobic incubation with ryegrass uptake with soil initial nitrate leaching and those for mineralizable N extracted by aerobic incubation, soil initial mineral N and mineralizable N extracted by aerobic incubation, potentially mineralizable N (N₀) and soil initial mineral N + N₀ with ryegrass uptake N under the two cases in disturbed treatment were all higher than those in undisturbed treatment. We concluded that NO₃ ^?-N in soil extracted by CaCl₂ before aerobic incubation can reflect soil N-supplying capacity but cannot reflect soil potential N-supplying capacity. Without soil initial nitrate leaching, the effect of disturbed and undisturbed soil samples incubated under laboratory conditions for estimating soil N-supplying capacity was not good; however, with soil initial nitrate leaching, this method could give better results for soil N-supplying capacity. Based on the results from pot experiments treated with soil initial nitrate leaching and native soil, the mineralization of disturbed soil samples can give provide better results for predicting soil N-supplying capacity for in situ structure soil conditions on the Loess Plateau than undisturbed soil samples.  相似文献   

Decomposition of ¹⁵N-labelled catch-crop residues in soil: evaluation of N mineralization and plant-N uptake potentials under controlled conditions     

B. NICOLARDOT  D. DENYS†  B. LAGACHERIE  D. CHENEBY  M. MARIOTTI‡ 《European Journal of Soil Science》1995,46(1):115-123

The decomposition of ¹⁵N-labelled catch-crop materials (rape, radish and rye), obtained from field experiments, was studied in a chalky Champagne soil during a 60-week incubation at 28°C. Mineralized N was assumed to come from either labile or recalcitrant fractions of plant residues. The labile fraction represented about one-third of the catch-crop N; its mineralization rate constant varied from 0.06 to 0.12 d^?1. The decomposition rate of the recalcitrant N fraction ranged from 0.03 × 10^?2 to 0.06 × 10^?2 d^?1. Catch-crop species and rate of incorporation had no effect on N residue mineralized at the end of incubation. The decomposition of labelled rye was monitored in the same soil during a 5-month pot experiment to determine the N availability to an Italian ryegrass crop and the effect of plants on the decomposition processes. The ¹⁵N-rye decomposed rapidly both in the presence or absence of Italian ryegrass, but the amounts of N mineralized were influenced by the presence of living roots: 42% of the ¹⁵N in labelled rye was present as inorganic N in the pots without plants after 5 months, compared with only 32% in the ryegrass crop. Comparison of microbial-biomass dynamics in both treatments suggested that there had been preferential utilization by soil micro-organisms of materials released from the living roots than the labelled plant residues.  相似文献