红壤水稻土微生物生物量氮与总氮矿化的关系

通过田间采样并布置室内培育试验,研究了红壤水稻土微生物生物量N和总N的矿化动态及其相互关系。结果表明,红壤水稻土微生物生物量N矿化速率和矿化量随培养时间延长而降低,随水稻土肥力水平提高而增加。12周培养期内,红壤水稻土微生物生物量N的一半以上被矿化,其中约1/2的矿化量出现在前4周;不同熟化程度红壤水稻土的累积矿化N量为73.0～127.8mg/kg,平均矿化速率为6.09～10.7mg/(kg·wk)。用双指数方程和一级动力学方程可以很好地模拟红壤水稻土微生物生物量N和总N的矿化过程。微生物生物量N和总N的矿化过程均可分为快速和缓慢2个阶段,培养的前8周是快速矿化阶段。2个模拟方程参数的比较表明,微生物生物量N矿化量占总N矿化量的比例为10.8%～49.5%,其矿化潜力大,持续矿化时间长,对保证土壤N素的持续供应有积极作用。     

施肥和秸秆还田对红壤水稻土有机碳分布变异及其矿化特性的影响

利用始于1990年的湖南桃园红壤水稻土长期定位试验,研究了长期施肥和秸秆还田对红壤水稻土剖面有机碳含量和δ13C值分布,有机碳密度和变异幅度,以及有机碳矿化特性的影响.结果表明,长期施肥和秸秆还田使红壤稻田土壤表层有机碳含量显著升高,秸秆还田对有机质的累积作用明显优于仅施化肥处理.施肥或秸秆还田使0～25 cm和0～ 50 cm土层的有机碳密度均明显提高,且有机碳变异幅度也明显增大.0～10cm表层土壤δ13C值与对照的差异最大,而施化肥或秸秆还田处理之间的差异不大.各施肥处理土壤有机碳在培养初期的矿化速率较大,并在1～3周内迅速降低且逐渐达到稳定状态.秸秆还田使各处理有机碳矿化速率的提高较明显,各处理的平均矿化速率为CO247.75～31.16 ml/(kg.d),稳定矿化速率为CO240～60ml/(kg·d),12周培养期内累积矿化量大小为CK+C＞NP+C＞N+C＞NPK+C＞NP＞NPK＞N＞NK＞CK.长期施化肥和秸秆还田,均使土壤有机碳的累积矿化量提高,而秸秆还田作用更明显.因此,长期施肥和秸秆还田作为土壤有机碳累积的途径,有利于提高红壤水稻土的养分供应能力,并且能够维持稻田生态系统有机碳库的缓冲性和长期稳定性.     

土壤水分和植物残体对紫色水稻土有机碳矿化的影响

采用为期62.d的实验室恒温(281)℃培养方法,研究了土壤水分和植物残体对紫色水稻土有机碳矿化的影响。结果表明,紫色水稻土有机碳矿化速率在培养30.d后基本达到稳定,好气条件下土壤有机碳累积矿化量高于淹水条件,且差异达到极显著水平。用一级动力学方程对植物残体的矿化速率进行拟合表明,好气条件下,植物残体的分解速率常数(k值)大小顺序为蚕豆秸秆玉米秸秆水稻秸秆,而淹水条件则为水稻秸秆蚕豆秸秆玉米秸秆。水分状况和植物残体化学组分的差异影响紫色水稻土中有机碳的动态变化,最终导致碳累积矿化量差异。     

温度对厌氧条件下不同pH水稻土氮素矿化的影响

氮矿化反应是土壤生态系统氮素循环的重要环节之一,决定了土壤氮素的可利用性。温度和pH是影响氮素矿化的重要环境因子。为研究厌氧条件下温度对不同pH水稻土氮素矿化的影响,本文以两种不同pH的水稻土为试验对象,在厌氧条件下,设置15℃、25℃、37℃和50℃4个温度,结合一级反应动力学方程式和有效积温式研究温度对土壤氮素矿化势、矿化速率、矿化程度和矿化势/全氮等矿化参数的影响。结果表明,两种土壤氮素矿化势均随着温度的升高而增大。在15~37℃范围内,两种土壤的矿化速率以及矿化程度均随着温度升高而增大,且同种温度下两土壤差异不显著。但在37~50℃范围内,随着温度的升高,两种pH土壤矿化速率以及矿化程度有增大也有减小,差异达1%显著水平。说明在高温范围内,不同pH土壤氮素矿化对温度的响应有很大差异。4个温度下,矿化势/全氮的值均随温度升高而增大,说明有机氮的品质随温度升高而提高。通过温度与矿化参数的相关性分析发现,在15~37℃范围内,各矿化参数与温度均呈正相关,且相关性极显著(P0.01);但37~50℃时,各矿化参数与温度相关性均较小,有的为负相关。本试验测定各培养周期的pH,发现在培养过程中,两种土壤pH波动不大,对土壤氮矿化的变化无影响。结果表明,厌氧条件下,尽管中、低温时不同pH水稻土氮素矿化对温度有相似的响应,但高温时不同pH土壤的氮素矿化显著不同。     

长期施肥和秸秆还田对红壤水稻土氮素分布和矿化特性的影响

为明确长期施肥和秸秆还田对稻田土壤生态系统氮素循环过程的影响,探索维持稻田土壤长期供氮潜力的途径,利用始于1990年的湖南红壤水稻土长期定位试验,研究了长期施肥和秸秆还田对水稻土剖面氮素迁移分布和C/N的影响,比较了不同温度下土壤氮素矿化曲线变化和不同施肥方式氮素矿化动态差异,分析了氮素累积矿化量与有效积温的关系。结果表明,长期施肥或秸秆可以促进红壤水稻土氮素的积累,其主要影响020cm土层,而化肥和秸秆配合施用作用更明显;长期施NPK化肥使土壤C/N降低,而秸秆还田使土壤C/N明显升高。在两种温度下的土壤矿质氮含量和累积矿化量曲线比较相似,10℃下土壤矿化速率达到稳定所需的时间要比30℃下长;30℃下不同施肥处理之间的矿化过程存在显著差异,而10℃下的差异较小,其在56d内矿化出来的矿质氮是10℃下的近两倍。化肥NP（仅施化肥NP）及NP+C（施化肥NP+秸秆还田）处理均有较高氮素矿化量,秸秆还田对土壤氮素矿化的促进作用比仅施化肥明显。在30℃下,土壤积累矿化量与有效积温的关系较好地符合有效积温方程式（EATM）（p0.01）。仅施化肥处理和对照方程中的K值相差不大,而秸秆还田与化肥配施处理方程的K值则有增大趋势,NPK+C（施化肥NPK+秸秆还田）处理的矿化潜力较大,且养分供应能力较强;秸秆配施化肥处理方程中n值的绝对值有减小趋势。随着培养时间延长,秸秆还田配施化肥处理土壤的累积矿化量保持在一个较稳定范围。     

上海地区水稻土氮素矿化模拟

Six paddy soils of Shanghai, China, were studied after 120 days of anaerobic incubation at 25 ℃ and 35 ℃. Four models, the effective accumulated temperature model, the one-component first-order exponential model (the one-pool model), the two-component first-order exponential model (the two-pool model), and the two-component first-order plus zero-order exponential model including a constant term (the special model), were fitted to the data of observed mineral-N during incubation using non-linear regression procedures. The two-pool model and the special model gave the best fits amongst the four models, and parameters in the special model were more reasonable than those in the other three. Results showed that the special model gave a better prediction of nitrogen mineralization under flooded conditions than the other three models.     

Redox control on carbon mineralization and dissolved organic matter along a chronosequence of paddy soils

Paddy soils are subjected to periodically changing redox conditions. In order to understand better the redox control on long‐term carbon turnover, we assessed carbon mineralization and dissolved organic carbon (DOC) of paddy topsoils sampled along a chronosequence spanning 2000 years of rice cultivation. Non‐paddy soils were used as references. We exposed soils to alternating redox conditions for 12 weeks in incubation experiments. Carbon mineralization of paddy soils was independent of redox conditions. Anoxic conditions caused increasing DOC concentrations for paddy soils, probably because of desorption induced by increasing pH. We assume desorption released older, previously stabilized carbon, which then was respired by a microbial community well adapted to anoxic conditions. This assumption is supported by the ¹⁴C signatures of respired CO₂, indicating larger mineralization of older carbon under anoxic than under oxic conditions. The increasing DOC concentrations under anoxic conditions did not result in an equivalent increase in carbon mineralization, possibly because of little reducible iron oxide. Therefore, net DOC and CO₂ production were not positively related under anoxic conditions. The overall 20–75% smaller carbon mineralization of paddy soils than of non‐paddy soils resulted from less respiration under oxic conditions. We conclude that carbon accumulation in paddy as well as in other wetland soils results from a microbial community well adapted to anoxic conditions, but less efficient in mineralizing carbon during transient oxic periods. Carbon accumulation might be even larger when mineralization under anoxic conditions is restricted by a lack of alternative electron acceptors.     

添加生物质炭对红壤水稻土有机碳矿化和微生物生物量的影响

通过室内培育试验,研究了添加生物质炭对江西红壤水稻土有机碳矿化和微生物生物量碳、氮含量的影响。结果表明:红壤有机碳矿化速率在培育第2天达最大值后迅速降低,培养7天后下降缓慢并趋于平稳;添加生物质炭降低了土壤有机碳的矿化速率和累积矿化量,培养结束时,不加生物质炭的对照处理中有机碳的累积矿化量分别比添加0.5%和1.0%生物质炭的处理高10.0%和10.8%。此外,生物质炭的加入显著提高了土壤微生物生物量,添加0.5%生物质炭处理的土壤微生物生物量碳、氮含量分别比对照高111.5%～250.6%和11.6%～97.6%,添加1.0%生物质炭处理的土壤微生物生物量碳、氮含量分别比对照高58.9%～243.6%和55.9%～110.4%。相同处理中,干旱的水分条件下(40%田间持水量)微生物生物量要高于湿润的水分条件(70%田间持水量)。同时,添加0.5%和1.0%的生物质炭使土壤代谢熵分别降低2.4%和26.8%,微生物商减少了43.7%和31.7%。     

Nitrification activities and N mineralization in paddy soils are insensitive to oxygen concentration

Oxygen concentration is considered to be the most important factor influencing nitrification and mineralization rates in agricultural soils. However, the sensitivities of nitrification and N mineralization in paddy soils to oxygen concentrations are not well known. We examined nitrification activities and N mineralization rates of six paddy soils with pH ranging from 5.23 to 7.83 and incubated at 25°C and 60% water-holding capacity in laboratory after ammonium was added at concentrations of 10, 30 and 50?mg?N?kg^?1 of soil and the headspace gases were replaced with stock gases whose oxygen concentrations were 20%, 10% and 2%, respectively. The tested paddy soils had a very wide range of nitrification activities so that the nitrate ratio in inorganic N varied from >?95% after 1 day incubation to?相似文献   

不同水分条件下添加白云石对酸性水稻土有机碳矿化的影响

施用石灰改良酸性土壤是常用的农艺措施之一。施用石灰影响土壤理化性质,进而影响土壤有机碳（Soil Organic Carbon,SOC）矿化。而SOC矿化与土壤肥力保持和有机碳库的大小存在紧密联系。因此,明晰施用石灰对酸性土壤有机碳矿化的影响具有重要的理论和现实意义。该研究以2种母质的酸性水稻土为对象,在50%、90%和130%土壤最大田间持水量（Water Holding Capacity,WHC）条件下添加和不添加白云石,再进行为期45 d的室内培养试验,探讨白云石和水分对SOC矿化的影响。研究结果表明,添加白云石显著影响2种土壤有机碳矿化速率,但白云石添加和水分的交互作用不显著。土壤含水量较低时（50% WHC）,2种土壤有机碳矿化均受到抑制。在较高土壤含水量情况下（90%～130% WHC）,白云石添加和水分的共同作用对SOC矿化的影响因土壤质地不同而异,淹水条件下（130% WHC）棕红壤有机碳矿化量高于湿润条件（90% WHC）,而红壤中的情况正好相反。白云石添加和水分均显著影响SOC累计矿化量,但二者交互作用仅在棕红壤中显著。添加白云石后,2种土壤pH值随着水分含量的增加而提高;土壤含水量较低时（50% WHC）,土壤pH值即可达到或接近目标值（pH值6.5）。这些结果表明,在评估施用白云石对SOC矿化的影响时,需要考虑土壤含水量和土壤本身的性质,以便为农业生产实践中合理施用白云石提供指导和建议。     

Bacteriological studies on the mineralization of organic nitrogen in paddy soils

In this report we studied the effects of mechanical grinding of paddy soils on nitrogen mineralization and bacterial number when soils were incubated under a submerged condition after grinding.

Nitrogen mineralization was increased by grinding soil samples as compared with those without grinding. The value of (Nd-Nu)/Nu, where Nd is the amount of ammonia-nitrogen formed by incubation of disrupted samples and Nu those of the undisrupted soils, was in good correlation with clay/humus ratio.

Although significant difference was not observed between the number of aerobic bacteria with undisrupted and disrupted soil samples, higher anaerobic bacterial numbers were found with disrupted than with undisrupted ones.

A significant correlation was also obtained between the amounts of nitrogen mineralization increased by the grinding of soil and the numbers of anaerobic bacteria.     

温度和植物残体对紫色母岩发育的水稻土有机碳矿化的影响

培养试验研究了2种温度下紫色水稻土有机碳的矿化特征以及添加不同植物残体对其矿化的影响。结果表明, 62d的培养过程中,有机碳累积矿化量在28℃条件下为C 66.79 mg/g;40℃条件下为C 86.99 mg/g,差异达到极显著水平。用一级动力学方程对植物残体的矿化速率进行拟合表明,28℃条件下,植物残体的分解速率常数（k）为蚕豆秸秆玉米秸秆水稻秸秆,而40℃条件下则为水稻秸秆玉米秸秆蚕豆秸秆。温度状况和植物残体化学组分的差异影响了紫色水稻土中有机碳的动态变化,最终导致了碳累积矿化量的差异。     

Changes in soil microbial community composition in response to fertilization of paddy soils in subtropical China

Repeated fertilizer applications to cultivated soils may alter the composition and activities of microbial communities in terrestrial agro-ecosystems. In this study, we investigated the effects of different long term fertilization practices (control (CK), three levels of mineral fertilizer (N₁P₁K₁, N₂P₂K₂, and N₃P₃K₃), and organic manure (OM)) on soil environmental variables and microbial communities by using phospholipid fatty acid (PLFA) biomarkers analysis in subtropical China. Study showed that OM treatment led to increases in soil organic carbon (SOC), total nitrogen (TN) and total phosphorus (TP) contents, while the mineral fertilizer treatment led to increases in dissolved organic carbon (DOC) content. Changes in soil microbial communities (eg. bacteria, actinomycetes) were more noticeable in soils subjected to organic manure applications than in the control soils or those treated with mineral fertilizer applications. Fungal PLFA biomarkers responded differently from the other PLFA groups, the numerical values of fungal PLFA biomarkers were similar for all the OM and mineral fertilizer treatments. PCA analysis showed that the relative abundance of most PLFA biomarkers increased in response to OM treatment, and that increased application rates of the mineral fertilizer changed the composition of one small fungal PLFA biomarker group (namely 18:3ω6c and 16:1ω5c). Further, from the range of soil environmental factors that we examined, SOC, TN and TP were the key determinants affecting soil microbial community. Our results suggest that organic manure should be recommended to improve soil microbial activity in subtropical agricultural ecosystems, while increasing mineral fertilizer applications alone will not increase microbial growth in paddy soils.     

红壤双季稻田土壤活性碳、氮周年变化及影响因素

【目的】 研究红壤稻田土壤活性碳、氮含量及其周年变化和影响因素,为弄清红壤双季稻田土壤活性碳、氮季节变化规律,提高土壤养分利用效率提供理论依据。 【方法】 以红壤稻田长期定位试验 (1990年开始) 为对象,选择不施肥 (CK)、单施NPK化肥 (NPK) 和有机物 (紫云英、稻草) + NPK化肥 (NPKM) 三个施肥处理,在早稻、晚稻、休闲期取0—20 cm 土样,动态监测稻田土壤几种重要活性碳、氮成分,包括无机态氮 (NH₄+-N、NO₃–-N),可溶性有机碳、氮 (DOC、DON) 和微生物生物量碳、氮 (MBC、MBN) 的周年动态变化。 【结果】 稻田土壤NH₄+-N含量在早稻期间呈下降状态,晚稻期间变化较平缓,休闲期呈先上升后下降的趋势。土壤无机氮主要以NH₄+-N形式存在,其含量范围为14.9～31.6 mg/kg,其休闲期含量略低于生育期 (P > 0.05);周年土壤NO ₃–-N含量 (< 3 mg/kg) 远小于NH₄+-N含量,与NH₄+-N含量呈现此消彼长的趋势 (P < 0.01)。稻田土壤DOC、DON周年变化趋势相似 ( P < 0.01),在生育期呈下降状态,休闲期呈先上升后下降趋势,休闲期土壤DOC、DON含量略低于生育期 ( P > 0.05)。休闲期土壤MBC、MBN含量分别为463～701 mg/kg、31.1～52.4 mg/kg,比生育期分别提高25.4%～36.9%和62.8%～125.9%。总体来看,稻田休闲期土壤活性碳 (DOC+MBC)、氮 (NH ₄+-N+NO₃–-N+DON+MBN) 含量高于生育期含量,较生育期增幅分别为10.8%～19.6%、10.3%～34.8%。不同施肥处理结果表明,仅施用化肥 (NPK处理) 对活性碳、氮影响较小 (P > 0.05),有机物还田能显著提高水稻生育期和休闲期的土壤活性碳、氮含量 ( P < 0.05),NPKM与CK相比活性碳、氮在水稻生育期分别提高53.8%和81.2%,而在休闲期分别提高了43.5%和63.2%。相关性分析结果表明,稻田休闲期土壤NH ₄+-N、DOC、DON含量不仅与土壤SOC、TN含量密切相关 (P < 0.05 或 P < 0.01),还受温度、水分含量等环境因子影响,如休闲期土壤NH ₄+-N含量与5 cm处土壤温度呈极显著负相关关系 (P < 0.01),而土壤NO ₃–-N含量与该土层温度呈显著正相关关系 (P < 0.05),土壤DOC和DON与土壤含水量呈显著正相关关系 ( P < 0.05)。 【结论】 长期化肥配施紫云英及秸秆还田能显著提高稻田土壤周年活性碳、氮含量,其活性含量与土壤有机碳、全氮含量呈显著正相关关系;休闲期稻田能维持较高的活性碳、氮含量,且比水稻生育期有一定程度增加。休闲期土壤无机氮含量变化主要受土壤温度影响,土壤可溶性碳、氮含量变化主要受土壤含水量的影响。      

Alterations of soil aggregates and intra-aggregate organic carbon fractions after soil conversion from paddy soils to upland soils: Distribution, mineralization and driving mechanism

Investigating the impacts of soil conversion on soil organic carbon(OC) content and its fractions within soil aggregates is essential for defining better strategies to improve soil structure and OC sequestration in terrestrial ecosystems. However, the consequences of soil conversion from paddy soil to upland soil for soil aggregates and intra-aggregate OC pools are poorly understood. Therefore, the objective of this study was to quantify the effects of soil conversion on soil aggregate and intra...     

不同施肥措施对稻田土壤氮矿化的影响

采集田间通过不同施肥处理的水稻土为研究对象,在室内采用淹水培养方法,研究不同施肥措施对水稻土氮矿化的影响。结果表明:与不施肥处理相比,施加氮肥和饼肥能提高土壤的氮矿化能力;与常规施氮处理相比,采用新型施肥措施,氮肥+木质素、一次施用的水稻缓释肥、氮肥+有机碳源均降低土壤的氮矿化作用,其中氮肥+有机碳源处理与常规施氮处理相比,土壤全氮增加了16.7%,但淹水培养期间土壤的氮矿化量却减少了18.5%,这一结果说明,采用这些新型施肥措施有利于增加土壤对氮的固持,降低氮素向环境损失的风险。     

不同利用年限红壤水稻土有机碳和养分含量的粒级分布变化

通过田间采样结合沉降法分级提取,研究了不同利用年限红壤水稻土有机碳和养分含量的粒级分布变化特征。结果表明,红壤水稻土有机碳和养分含量随土壤颗粒粒径的增大而下降,但在各粒级中的分布比例存在显著差异。<0.002mm、0.002～0.02mm、0.02～0.05mm、>0.05mm粒级的有机碳占全土有机碳的比例分别是29.2%、30.7%、11.9%、15.4%,氮的相应数值为36.7%、31.9%、10.2%、14.0%,磷为49.2%、26.5%、11.1%、12.4%,钾为36.9%、33.4%、12.9%、20.0%。总体来说,黏粒和粉粒中有机碳和养分的分布比例较高。红壤水稻土有机碳和养分含量及分布比例还随利用年限而有明显变化。开垦利用不到10a的水田土壤,有机碳和养分含量较低且主要集中在<0.002mm粒级中;而利用超过10a的水稻土,有机碳和养分在粉粒中(0.002～0.05mm)的比例大于50%。各利用年限的红壤水稻土多以0.02～0.05mm粒级的C/N为最高,并随利用年限延长而下降。红壤水稻土各粒级有机碳和养分含量及分布状况随利用年限的变化反映了土壤肥力熟化和养分有效性的提高过程。     

Bacteriological studies on the mineralization of soil organic nitrogen in paddy soils

Anaerobes were isolated from both disrupted and undisrupted soil samples incubated under submerged condition. All isolates were divided into 9 groups based on their gram stain and morphological characteristics. Correlation coefficients between the amount of nitrogen mineralized and the number of each group were calculated. A significant correlation was observed only between the amount of nitrogen mineralized and the number of gram positive-rod shaped anaerobic microorganisms (r=0.768 at P=0.05). This result indicates that in this study system, sorne particular anaerobes may play an important role in the mineralization of soil organic nitrogen.     

不同有机肥施用模式下黄壤稻田根际和非根际土壤有机碳的矿化特征

【目的】研究长期施用有机肥对土壤有机碳矿化特征的影响,为提高土壤碳库稳定性和培肥土壤提供理论依据。【方法】贵阳黄壤肥力与肥效长期定位试验始于1994年,种植制度为单季水稻。2021年水稻收获后,选取不施肥(CK),平衡施用化肥(NPK),25%和50%有机肥氮替代化肥氮(0.25MNPK、0.5MNPK)和单施有机肥(M) 5个处理的水稻植株,用抖根法采集根际和非根际土壤样品,分析活性碳组分含量,以采集的土样进行室内培养试验,研究有机碳矿化特征。【结果】1)与NPK相比,3个有机肥处理的根际土壤有机碳(SOC)含量提升了26%～43%,非根际土壤SOC含量提高了24%～32%;根际土壤微生物量碳(MBC)含量提升了16%～31%,且比非根际土壤高148%;非根际土壤易氧化有机碳(LOC)含量显著提升了36%～75%;0.5MNPK处理非根际土壤可溶性有机碳(DOC)含量显著提升了54%,且根际土壤的DOC含量平均高于非根际土壤10%。2)有机肥施用可明显增加黄壤稻田根际及非根际土壤有机碳矿化量,非根际土壤有机碳矿化量和矿化率分别高于根际土壤30%和33%;较CK和NPK处理,有机肥施用...