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1.
日光温室栽培下不同种类有机肥氮素矿化特性研究 总被引:2,自引:0,他引:2
采用田间原位培养试验,研究了日光温室栽培季节不同种类有机肥(鸡粪、猪粪及牛粪各2个)的氮素矿化特性。结果表明: 培养期间(180 d)供试的6个不同有机肥氮矿化率差异较大,在1.1%~19.09%之间,平均7.5%;不同种类有机肥相比,鸡粪的平均氮矿化量及矿化率最高,其次为牛粪及猪粪,这与鸡粪C/N比相对较高有关。各培养阶段有机肥的氮矿化量与相应阶段的土壤积温间的相关性未达显著水平,但随着春季土壤温度增加,这一阶段有机肥氮素的矿化量呈增加的趋势;培养期间有机肥的氮素累积矿化量与日光温室土壤的积温呈显著的线性关系,说明土壤温度是影响有机肥氮矿化量的重要因素。 相似文献
2.
不同有机肥对设施土壤有效磷累积与淋溶的影响 总被引:12,自引:0,他引:12
采用田间试验,研究了不同有机肥对设施土壤有效磷累积、淋溶及季节性变化的影响。结果表明,等磷量条件下,鸡粪、猪粪处理与化肥处理相比,更能增加土壤Olsen-P的累积量和淋溶量,且施用量越大作用越明显。鸡粪TC3、猪粪TS3土壤表层Olsen-P累积量分别比化肥高出50.60%、70.29%;20 cm以下淋溶量分别比化肥处理高出159.5%、111.6%。商品有机肥与化肥相比降低了表层Olsen-P含量,且用量越大作用越明显;商品有机肥土壤淋溶量也低于化肥处理,但用量越大,淋溶量有上升趋势。设施土壤Olsen-P含量高低与施肥时期密切相关,周年呈现"M"形变化规律。不同肥料影响不同,影响大小顺序为猪粪>鸡粪>化肥>商品有机肥。因此,为减少设施土壤Olsen-P的累积与淋溶,鸡粪、猪粪施用量要适当减少,商品有机肥可适当增加。 相似文献
3.
为揭示不同有机肥对煤矿复垦土壤氮素矿化特性的影响,以山西省孝义市水峪煤矿采煤塌陷复垦土壤为研究对象,采用室内好气培养法,研究在40%含水量和30℃培养条件下,施用3种有机肥(鸡粪、猪粪、牛粪)后在0~161天的氮素矿化动态特征,以明确不同有机肥对该矿区复垦土壤氮素矿化特征,从而预估不同有机肥的供氮特性,为合理施用有机肥进行低产农田的培肥改造提供科学依据。结果表明:(1)各处理0~14天铵态氮含量均随培养时间的延长迅速下降,与培养时间呈极显著负相关关系(P<0.01),14~161天土壤铵态氮含量维持在较低水平,培养结束时,各处理铵态氮含量均低于1.31mg/kg。(2)各处理土壤硝态氮含量、累积量及矿质氮累积量变化均呈近似的“S”形曲线递增,表现为0~56天缓慢增加,56~84天迅速增加,84天至培养结束(161天)其含量基本不变。培养结束时不同处理间硝态氮含量、累积量及矿质氮累积量整体上均表现为鸡粪>猪粪>牛粪>空白,且鸡粪较猪粪和牛粪处理间存在显著差异,猪粪和牛粪较空白处理间存在显著差异(P<0.05)。(3)不同施肥处理出现氮素净矿化的时间点不同,其中鸡粪处理在第14天时最早出现净矿化现象,而猪粪和牛粪在培养28天后才出现明显的氮素净矿化。(4)不同施肥处理在培养的不同阶段硝态氮和矿质氮累积速率不同,但整体趋势一致,表现为培养0~84天各处理土壤累积矿化波动较大,56~84天达到峰值,培养84~161天各处理矿化速率平稳下降。总体来看,有机肥的施入能有效促进煤矿复垦土壤氮素矿化,从而提高土壤氮素有效性。其中,施鸡粪较猪粪和牛粪对提高矿区复垦土壤有效氮效果更好。4种处理的氮素矿化效果总体表现为鸡粪>猪粪>牛粪>空白。 相似文献
4.
施用生物炭抑制塌陷区复垦土壤硝化作用 总被引:5,自引:1,他引:5
生物炭具有培肥土壤和影响土壤氮素转化的效应,但对于不同肥力尤其是极低肥力的采煤塌陷复垦区土壤氮素转化方面缺乏研究。该文采用室内恒温控湿好气培养的方法,研究生物炭在不同氮肥水平下对肥力差异较大的两种土壤(肥力高的菜地土壤、肥力极低的塌陷区复垦土壤)硝化作用的影响。试验设2种氮肥水平、3种生物炭施用量。结果发现,相对于菜地土壤,塌陷区复垦土壤硝化作用缓慢,土壤最大硝化速率仅为菜地土壤的17.32%,且最大硝化速率出现的时间延迟4.2 d。高氮条件下,土壤硝化作用进行得较慢,施入生物炭后对硝化作用的抑制增强,并使土壤硝化加速阶段延长6 d(塌陷区复垦土壤)至11 d(菜地土壤)。塌陷区土壤尤其在高氮条件下最大硝化速率出现的时间明显随生物炭添加量增加而逐渐延迟,而土壤最大硝化速率不受生物炭及氮肥水平的影响。但菜地土壤土壤最大硝化速率值、最大硝化速率出现的时间值显著受氮肥水平及生物炭施用量影响。因此,生物炭对硝化作用的抑制主要表现在硝化作用的加速阶段,抑制强度受氮肥水平和土壤类型交互作用影响。 相似文献
5.
长期有机培肥模式下黑土碳与氮变化及氮素矿化特征 总被引:21,自引:3,他引:18
土壤氮的矿化是土壤氮素肥力的重要指标,是影响作物产量至关重要的因素。本研究依托黑土长期定位试验,通过取样分析研究了32 a不同培肥模式下黑土碳、 氮及主要活性组分的变化,采用淹水培养法研究了不同施肥模式下黑土氮素的矿化特征。结果表明,施肥显著提高黑土可溶性碳(DOC)、 氮(DON)的含量及其比例。在氮、 磷、 钾化肥的基础上配施有机肥,显著降低了土壤微生物量氮(SMBN)占土壤总氮的比例,提高了土壤微生物量的C/N比值(SMBC/SMBN),促进了土壤氮的生物固持。施肥32 a后,单施常量和高量有机肥处理的土壤氮的矿化量(Nt)显著提高,分别相当于不施肥的8.2倍和10.2倍,而单施氮或氮磷钾化肥对黑土氮素矿化量无明显影响。施用有机肥显著提高了土壤氮素的矿化率(Nt/TN),但有机肥配施化肥(氮或氮磷钾)的处理与单施有机肥相比,黑土氮的矿化率显著降低,降低幅度分别为23.5%~32.1% 和14.1%~17.8%。土壤氮素矿化量与土壤有机质、 全氮储量、 活性碳、 氮组分均呈极显著线性相关,但氮素的矿化率随着有机质和全氮含量的提高而提高至0.4% 后基本稳定。表明尽管土壤氮的矿化与有机质的含量直接相关,但土壤有机质的品质同样决定着土壤氮素的矿化能力。施有机氮是提高土壤供氮能力的重要途径。 相似文献
6.
氮肥减量配施生物炭对于提升土地生产力、提高土壤碳汇能力以及缓解气候变暖具有重要意义。依托大田试验,设置5个氮肥用量梯度(T0~T4):100%化肥氮,90%化肥氮,80%化肥氮,70%化肥氮,60%化肥氮,采用等氮原则,氮肥减少量用等氮量生物炭替代,以不施肥为对照(CK),结合室内矿化培养,揭示稻田有机碳矿化及酶活性对氮肥减量配施生物炭的响应。结果表明:与T0处理相比,T3处理(70%化肥氮+7.5 t/hm~2生物炭氮)土壤全氮,碱解氮及速效磷依次显著提高了6.67%,8.36%及30.94%(P0.05),T4处理的速效钾含量最高,显著提高了23.78%(P0.05)。氮肥减量配施生物炭可有效提升土壤有机碳(SOC)含量,且随配施生物炭比例的增大而增大;与矿化前相比,各处理矿化后SOC,微生物量碳(MBC)及微生物熵(qMB)依次下降1.39~1.75 g/kg, 24.62~67.57 mg/kg及0.13%~0.32%(P0.05)。SOC矿化速率在培养的第1天达到峰值,第1阶段(第1~6天)迅速下降,第2阶段(第6~30天)缓慢下降,第3阶段(第30~45天)矿化速趋于平稳,矿化速率与培养时间呈对数函数关系(P0.01)。培养结束时SOC累积矿化量和累积矿化率的变化范围分别为1.39~1.75 g/kg和6.02%~8.43%,均以T3处理最低。与CK和T0处理相比,T3处理的过氧化氢酶、脲酶和蔗糖酶活性最高,T1处理的酸性磷酸酶活性最高。水稻产量以T3处理(7.37 t/hm~2)最高,比T0处理增产39.58%(P0.05)。综上,氮肥减量30%配施生物炭可明显提高土壤肥力,减少SOC矿化,增加土壤固碳,提高土壤酶活性及水稻产量。 相似文献
7.
为探索不同有机肥对植烟土壤氮素矿化及土壤微生态的影响。在等氮(100 mg/kg)投入和30℃条件下对施入不同有机肥(植物源有机肥、芝麻饼肥、生物质炭有机肥)的土壤进行室内培养,分析不同时期土壤NO3–-N和NH4+-N含量、土壤酶活性及细菌群落多样性的变化。结果表明:施用不同有机肥均可提高土壤矿质氮含量,在培养前期以饼肥矿化量最高,矿化速率最快,而后期为生物质炭有机肥处理的氮素矿化量、矿化速率高于其他处理;施用生物质炭有机肥、植物源有机肥均可显著提高土壤脲酶、硝酸还原酶活性,芝麻饼肥对蛋白酶、蔗糖酶活性有显著的提升作用;相较不施有机肥处理,添加不同有机肥的土壤细菌多样性明显提升。优势菌门为变形菌门、酸杆菌门、拟杆菌门、浮霉菌门,优势菌属为Sphingomonas、RB41,Sphingomonas在不施有机肥处理中最高,RB41在生物质炭有机肥处理中最高。Sphingomonas与蔗糖酶活性呈正相关关系,与脲酶、硝酸还原酶均呈负相关关系;PCA分析显示,生物质炭有机肥处理的细菌群落结构与其他处理相比差异较大。施用芝麻饼肥有利于促进早期氮素矿化,提高矿化量,而生物质炭有机肥后期矿化量较... 相似文献
8.
沼肥替代化肥对设施蔬菜产量和土壤养分及重金属累积的影响 总被引:5,自引:0,他引:5
针对盲目施用沼肥可能带来的土壤环境问题,该研究采用5年8茬的设施番茄-甜椒田间轮作试验,研究不同沼肥和化肥配比对蔬菜产量、设施土壤氮磷养分及重金属累积的影响.结果表明:在等氮钾养分投入下,沼肥和化肥以不同比例配施的各处理没有影响蔬菜产量;氮素盈余和0~180cm土层土壤全氮含量随沼肥施用比例增加没有显著差异;磷素盈余随沼肥施用比例增加显著增加,完全沼肥处理0~30cm土层土壤Olsen-P及CaCl2-P含量分别达到151和8.0mg/kg,高于其他2个处理,且明显超出环境阈值.与完全沼肥处理相比,减量沼肥施用(3/5沼肥处理)明显降低了土壤氮素淋洗风险和磷素累积.与不施肥处理相比,施用沼肥后30~60、60~90、150~180cm土层土壤全Hg含量均低于不施肥处理;除30~60cm土层使用沼肥处理土壤中全As含量显著高于不施肥处理,其他土层各处理间均没有显著差异,而完全沼肥处理全Cr、全Cd、全Pb含量有所下降,且全Pb含量下降最为显著,但均没有出现重金属污染风险.沼肥替代化肥施用可有效实现废弃物中的养分资源循环利用,但增加菜田土壤磷素累积和淋失风险,本研究为设施菜田合理施用沼肥提供技术支持,为实现沼肥资源的循环利用和化肥替代模式提供理论参考. 相似文献
9.
Mohd Hadi Akbar Basri Md. Rezaul Karim Nasima Junejo Hazandy Abdul Hamid Noor Syahirah Norrashid 《Acta Agriculturae Scandinavica, Section B - Plant Soil Science》2016,66(6):534-543
In tropical climate, huge amount of fertilizer need to be used for the cultivation of kenaf (Hibiscus cannabinus L.) in Beach Ridges Interspersed with Swales (BRIS) soil, however this approach is not cost effective and environmental friendly. Therefore, the optimizing of fertilizer rate for BRIS soils and selection of suitable soil amendments are crucial to get a higher yield. In this study, the effects of different combinations of urea, chicken manure and biochar on soil properties, growth performance and physiological characteristics of kenaf cultivated on the BRIS soil were investigated. Eight treatments were conducted namely: control (T1), biochar (T2), chicken manure (T3), urea (T4), chicken manure + urea (T5), biochar + chicken manure (T6), urea + biochar (T7) and biochar + chicken manure + urea (T8). The biomass and physiological characteristics of kenaf were recorded every month, while the soil was analyzed following a standard laboratory procedure. The application of organic and inorganic fertilizer (urea) significantly increased the nutrient content of the soil compared to the T1, whereas T3 showed the highest pH, cation exchange capacity, and exchangeable bases (Na, Mg, Ca). However, the mixing of biochar with organic and inorganic fertilizers showed the highest plant height, diameter of stem and number of leaves as well as dry biomass compared to other treatments. Furthermore, the application of nitrogen fertilizer significantly increased the photosynthesis rate and stomatal conductivity. The results suggest that the mixing of biochar with organic and inorganic fertilizers represents an effective approach for the cultivation of kenaf in tropical climate. 相似文献
10.
新型有机肥的氮素在土壤中的转化及其对草莓生长和品质的影响 总被引:14,自引:1,他引:14
土壤中硝态氮和铵态氮的含量直接影响着作物的生长和品质。通过田间试验研究了不同有机肥料氮素在土壤中的转化及其对草莓生长和果实品质的影响。结果表明,施用有机肥可以提高草莓苗期土壤硝态氮的比例,硝铵比值大于尿素处理,同时有机肥处理硝铵比值从苗期至盛花期呈下降趋势,但尿素处理则表现为上升的趋势,而花序现蕾期土壤硝铵比的降低,有利于植株花蕾的形成,因此土壤硝铵比值的变化趋势一定程度上决定着草莓的产量和品质。在等量施用氮素养分的条件下,施用有机肥料均较尿素更能促进草莓生长发育和增加草莓产量。施用有机肥对草莓品质的改善作用也优于尿素,果实中糖/酸比值较无肥区提高23.7%-28.7%,较尿素区提高16.5%-21.2%。 相似文献
11.
Rubab Sarfraz Awais Shakoor Muhammad Abdullah Ammara Arooj Azhar Hussain 《Soil Science and Plant Nutrition》2013,59(5):488-498
Biochar application has been considered as a rich source of carbon which helps to improve the physico-chemical properties and fertility of the soil. In Pakistan, excessive use of nitrogen fertilizer is considered a serious problem, so it is of vital importance to examine the effect of biochar on soil with varying doses of nitrogen fertilizer. We hypothesized that addition of biochar to an alkaline calcareous soil could improve not only soil quality and crop yield but also nitrogen use efficiency (NUE), reducing the loss of nitrogen (N) in the form of denitrification, ammonia volatilization, and nitrate leaching. A pot experiment was conducted under 2-factorial completely randomized design having three replications to evaluate the NUE in biochar amended calcareous soil. Biochar was applied at the rate of 0%, 1% and 2% (w/w) in pots filled with 17 kg of soil using various levels of N (0%, 50% and 100% of recommended dose) on maize (Zea mays L.). Several soil quality indicators, uptake, and yield of maize were monitored. Biochar application significantly decreased soil pH, increased water-holding capacity, total organic carbon, maize yield, stomatal conductance, and nitrogen uptake in plant. The results of the study indicated that addition of biochar could not only decrease the use of inorganic fertilizers by improving its quality and yield as in our case biochar at the rate of 1% and N at the rate of 50% provided optimum output minimizing the economic cost eventually. 相似文献
12.
《Communications in Soil Science and Plant Analysis》2012,43(13-14):1691-1711
Abstract The rate and timing of manure application when used as nitrogen (N) fertilizer depend on N‐releasing capacity (mineralization) of manures. A soil incubation study was undertaken to establish relative potential rates of mineralization of three organic manures to estimate the value of manure as N fertilizer. Surface soil samples of 0–15 cm were collected and amended with cattle manure (CM), sheep manure (SM), and poultry manure (PM) at a rate equivalent to 200 mg N kg?1 soil. Soil without any amendment was used as a check (control). Nitrogen‐release potential of organic manures was determined by measuring changes in total mineral N [ammonium‐N+nitrate‐N (NH4 +–N+NO3 ?–N)], NH4 +–N, and accumulation of NO3 ?–N periodically over 120 days. Results indicated that the control soil (without any amendment) released a maximum of 33 mg N kg?1soil at day 90, a fourfold increase (significant) over initial concentration, indicating that soil had substantial potential for mineralization. Soil with CM, SM, and PM released a maximum of 50, 40, and 52 mg N kg?1 soil, respectively. Addition of organic manures (i.e., CM, SM, and PM) increased net N released by 42, 25, and 43% over the control (average). No significant differences were observed among manures. Net mineralization of organic N was observed for all manures, and the net rates varied between 0.01 and 0.74 mg N kg?1 soil day?1. Net N released, as percent of organic N added, was 9, 10, and 8% for CM, SM, and PM. Four phases of mineralization were observed; initial rapid release phase in 10–20 days followed by slow phase in 30–40 days, a maximum mineralization in 55–90 days, and finally a declined phase in 120 days. Accumulation of NO3 ?–N was 13.2, 10.6, and 14.6 mg kg?1 soil relative to 7.4 mg NO3 ?–N kg?1 in the control soil, indicating that manures accumulated NO3 ?–N almost double than the control. The proportion of total mineral N to NO3 ?–N revealed that a total of 44–61% of mineral N is converted into NO3 ?–N, indicating that nitrifiers were unable to completely oxidize the available NH4 +. The net rates of mineralization were highest during the initial 10–20 days, showing that application of manures 1–2 months before sowing generally practiced in the field may cause a substantial loss of mineralized N. The rates of mineralization and nitrification in the present study indicated that release of inorganic N from the organic pool of manures was very low; therefore, manures have a low N fertilizer effect in our conditions. 相似文献
13.
不同有机肥与化肥配施对氮素利用率和土壤肥力的影响 总被引:15,自引:7,他引:8
14.
土壤有机碳氮是土壤肥力的关键因素,有机物料施用是提高土壤有机碳氮的有效措施。研究和比较了不同有机物料输入对土耕层(0—20 cm)土壤有机碳、全氮、可溶性有碳氮及0—200 cm剖面土壤硝态氮和含水量分布变化的后效作用。结果表明,停止施入有机物料两年后,与对照(CK)相比,秸秆与氮磷肥配施(SNP)和生物炭与氮磷肥配施(BNP)的表层(0—20 cm)土壤有机碳(SOC)分别提高了29.5%和29.8%(p<0.05);氮磷肥(NP)、有机肥与氮磷肥配施(MNP)、秸秆与氮磷肥配施(SNP)和生物炭与氮磷肥配施(BNP)的表层土壤全氮含量较CK分别提高了22.0%,14.3%,24.2%和26.4%(p<0.05)。BNP处理的土壤可溶性有机碳(DOC)显著高于其他处理(p<0.05),分别比CK,NP,MNP和SNP提高了23.4%,10.9%,21.3%,20.5%;所有施肥处理的土壤可溶性有机氮(DON)均显著高于CK(p<0.05),分别提高了39.3%,29.3%,34.5%和52.3%。与CK相比,各施肥处理显著提高了表层土壤硝态氮含量(p<0.05),增加了0—100 cm土层的硝态氮累积量。与NP处理相比,MNP和SNP显著提高了0—200 cm土层的硝态氮累积量(p<0.05),而BNP则差异不显著。相比CK,施肥处理(NP,MNP,SNP,BNP)可显著提高0—20 cm土层的含水量,增加0—40 cm土层的储水量,且BNP处理显著高于SNP和MNP。总体而言,生物炭在提高和维持表层土壤肥力以及降低剖面硝态氮淋溶风险等方面的后效作用显著优于秸秆和有机肥,是陕西关中地区旱地土上一种较好的有机物料施用方式。 相似文献
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不同有机肥对日光温室土壤剖面硝态氮含量动态变化的影响 总被引:4,自引:1,他引:3
采用田间小区试验,研究了不同有机肥对日光温室土壤硝态氮累积、分布及季节性变化的影响。结果表明,有机肥对设施土壤硝态氮的影响不同季节呈现不同特点,夏季高量有机肥的施用会引起硝酸盐在土壤、蔬菜中的累积,并加剧了硝酸氮向土壤深层的迁移;而冬季却相反,高量有机肥能够降低土壤及蔬菜中硝酸盐的含量,减少硝酸氮向土壤深层迁移。以猪粪用量(干基)22.5 t/hm2的处理为例,在夏季(番茄季),硝态氮在土壤表层(010 cm)、080 cm土层和蔬菜中的累积量分别比化肥处理高出56.69%、31.48%和23.94%;而在冬季(芹菜季),比化肥处理降低了67.38%、61.74%和6.26%。3种有机肥与化肥相比,引起土壤硝态氮周年变化幅度大小顺序为鸡粪猪粪商品有机肥化肥。因此,有机肥的施用要依据季节性的不同而有所差异,设施土壤对于春季施肥夏季收获的蔬菜,有机肥用量不宜过高,而秋季施肥冬季收获的蔬菜,有机肥用量可适当增加。 相似文献
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畜禽粪便作为有机肥还田可以维持和提高土壤有机质、改良土壤,有利于农业可持续发展。不同类型粪肥还田后对土壤生物学性状的影响不同,为探究这一问题,在内蒙古乌兰察布市设置田间试验,包括化肥(F)、羊粪(GM)、猪粪(PM)、牛粪(CM)4个处理,研究其对土壤养分、酶活性及微生物群落的影响。结果表明,施用粪肥较化肥具有增加土壤有机质、全氮、有效磷、铵态氮等养分含量的趋势。不同粪肥较化肥处理的土壤脲酶、蔗糖酶、碱性磷酸酶和过氧化氢酶活性最高增幅分别为32.4%、150.4%、26.8%和30.1%。牛粪处理的土壤微生物生物量碳氮显著提高,分别较化肥增加33.2%和33.4%。不同处理在细菌门水平上的优势种群较一致,放线菌门(Actinobacteria)、变形菌门(Proteobacteria)、酸杆菌门(Acidobacteria)、绿弯菌门(Chloroflexi)、厚壁菌门(Firmicutes)是优势种群。本试验条件下,牛粪处理更能提高土壤微生物生物量碳氮,短期内施用不同粪肥对于提高土壤微生物群落多样性差异不显著,土壤pH、有效磷、铵态氮是影响土壤微生物群落结构的主要环境因子。 相似文献
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不同种类有机肥碳、 氮矿化特性研究 总被引:14,自引:2,他引:12
本文采用室内培养法研究了陕西关中地区日光温室栽培生产中9个不同有机肥的碳、氮矿化特性。结果表明:不同有机肥碳、氮的矿化量和矿化率(矿化量占总有机碳或氮的比例)的动态变化存在明显差异,其中碳矿化率在22.24%~87.16%之间,变异系数达90.30 %;氮矿化率在29.07%~84.87%之间,变异系数达67.37 %;不同类型有机肥相比,鸡粪平均的碳、氮矿化累积量及矿化率显著高于猪粪和牛粪;猪粪与牛粪平均的碳、氮矿化累积量及矿化率无显著差异。同一种类有机肥,培养期间其碳、氮矿化累积量及矿化率也存在明显差异。供试有机肥碳、氮的矿化量与有机肥全氮含量均呈线性关系,表明有机肥氮含量是影响矿化量的主导因子。 相似文献
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有机肥氮素矿化及影响因素研究进展 总被引:7,自引:1,他引:7
本文综述了有机肥氮素矿化和影响因素的研究进展。有机肥氮素矿化的研究方法主要有室内培养法和田间原位培养法。非淋洗通气培养法和原状土柱培养法虽不破坏土壤结构,但可能低估有机氮的矿化潜力;间歇淋洗通气培养法可模拟植物吸收不断移除矿质氮,适合大批样品的快速测定,但可能高估有机氮的矿化潜力。田间原位培养法包括聚乙烯袋培养法、顶盖埋管培养法和离子交换树脂法。聚乙烯袋培养法目前使用最广泛,但具有不透水、破坏土壤结构、矿质氮损失等缺点,顶盖埋管培养法虽可透水且不易被损坏,但可引起矿化氮流失。离子交换树脂芯法在不破坏土壤原状的条件下进行培养,虽费时、费力,但对土壤温度、湿度、通气状况反应灵敏,并可消除矿质氮累积的影响。影响有机肥氮素矿化的因素主要包括有机肥特性、温度、水分、土壤质地、施肥等因素。关于畜禽粪便的种类、熟化程度、C/N比、碳氮化合物组成等影响有机肥的矿化量和矿化动力学特征的研究较多。用有效积温来表示有机肥的矿化与温度之间的关系更为合理。目前,关于水分的影响,主要集中在干湿交替对有机氮矿化的影响;关于土壤质地的影响,主要集中在研究粘粒含量与有机质矿化的关系;关于施肥的影响,则重点研究氮肥、钾肥对有机氮矿化和粘土矿物固定氮的影响。今后,研究重点应放在有机肥矿化与有机氮组分关系、与植物有效性关系、有机肥替代化肥当量和替代率以及室内研究结果如何应用到田间指导合理施肥。 相似文献
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Gokhan Cayci Cagla Temiz Sonay Sözudogru Ok 《Communications in Soil Science and Plant Analysis》2017,48(13):1528-1538
The effects of fresh and composted chicken manures on some soil characteristics were investigated. Fresh and composted chicken manures were mixed with the soil at the rates of 0%, 1%, 2%, 3%, and 4%, and then were incubated for 90 days. At the end of this incubation period, some soil physical properties closely related to soil aggregation (such as hydraulic conductivity, water stable aggregates, aeration porosity, and available water) and some soil chemical characteristics (such as organic carbon, total nitrogen, pH, and electrical conductivity, EC) were determined. As doses of both manures in the soil mixtures increase, the amounts of water stable aggregates, hydraulic conductivity, and aeration porosity increased, whereas the available water content decreased. Increasing doses of both manures increased the amount of the soil organic carbon and total nitrogen. Application of both manures to the soil increased the EC values, but it was limited in the composted chicken manure. 相似文献