山竹岩黄蓍固沙群落对土壤养分及生物活性的改良效应

以半流动沙丘为对照,对5、10和22年生山竹岩黄蓍人工固沙群落不同层次(0~10、10~20和20~30cm)土壤的养分状况、微生物生物量和土壤酶活性进行了对比研究.结果表明:采用山竹岩黄蓍固定流沙后,随着群落年龄的增长,土壤中C、N、P、K含量及生物活性均明显提高.其中,0~10cm土层的增长幅度显著高于10~30cm土层.0~30cm土层中C/N由7.3增加到8.5;土壤微生物生物量碳、氮、磷含量以及土壤脲酶、磷酸单酯酶、蔗糖酶、蛋白酶、脱氢酶、硝酸还原酶和多酚氧化酶的活性均有所提高.其中,0~10cm土层中蔗糖酶的活性是对照的49.7~284.5倍.土壤微生物生物量碳、氮、磷分别与土壤有机碳、全氮、全磷以及微生物生物量与酶活性之间存在显著的正相关关系.     

Vertical distribution of soil nematodes in an age sequence of <Emphasis Type="Italic">Caragana microphylla</Emphasis> plantations in the Horqin Sandy Land,Northeast China

The vertical distribution of soil nematodes down to a depth of 50 cm was studied in an age sequence of 0-, 5-, 10-, and 22-year-old Caragana microphylla plantations (treatments) in the Horqin Sandy Land, Northeast China. The abundances and generic compositions of nematode fauna in five soil layers (0–10, 10–20, 20–30, 30–40, and 40–50 cm) were analyzed. 42 genera were observed in the nematode suspensions, and Acrobeles was the dominant genus in all treatments. The results showed that the total number of nematodes and the generic diversity in an age sequence of C. microphylla plantations decreased with increasing soil depth. Significant differences in the numbers of total nematodes, bacterivores (BF), plant parasites (PP), and omnivores–predators (OP) were observed between treatments and depths. BF was the most abundant trophic group in our study, followed by OP. The numbers of OP showed an obviously increasing trend with increasing age of C. microphylla plantation. The vertical distribution of the soil nematode communities was related to gradual changes in soil chemical properties, and it indicated that C. microphylla plantations have played positive roles in improving soil environmental conditions and restoring desertified ecosystems in the Horqin Sandy Land. The ecological indices selected were influenced by plantation chronosequence but not by soil depth.     

科尔沁沙地四种固沙植物群落土壤微生物生物量及酶活性的季节动态

为探讨科尔沁沙地不同人工固沙植物群落土壤微生物生物量、土壤酶活性的季节动态规律,选取25年生小叶锦鸡儿、山竹岩黄蓍、差巴嘎蒿、樟子松群落为对象,研究了固沙植物群落0～30cm土壤蛋白酶、脲酶、蔗糖酶、磷酸单酯酶、多酚氧化酶、硝酸还原酶、脱氢酶7种酶活性和微生物生物量C、N、P不同季节的变化特征。结果表明,4种人工植物群落土壤7种酶活性有明显的季节性变化,均表现为春季开始逐渐升高,到夏季植物旺盛时逐渐达到最大值,秋冬季达到最低值。微生物生物量C、N的动态变化与土壤酶活性的变化规律相同,而土壤微生物量P的季节变化则表现为春季>夏季>秋季,这些变化在0～10cm土层更为显著。7种土壤酶活性和微生物生物量最高值均出现在土壤表层(0～10cm),随着土层的加深生物活性逐渐降低。小叶锦鸡儿群落土壤微生物生物量和7种酶活性均高于其他3种植物群落。     

沙地樟子松人工林土壤理化性质与微生物生物量的动态变化

为揭示不同林龄沙地樟子松人工林土壤理化性质和微生物生物量的动态和相互关系,以毛乌素沙地、科尔沁沙地和呼伦贝尔沙地不同林龄樟子松人工林为对象,分析土壤理化性质、土壤微生物生物量碳和微生物生物量氮变化规律。结果表明:樟子松人工林土壤理化性质随林龄增加在不同沙地中表现不同,毛乌素沙地土壤容重和养分含量明显降低,科尔沁沙地土壤孔隙度和养分含量明显升高,呼伦贝尔沙地土壤养分则呈现先增加后降低趋势。与土壤理化性质变化趋势类似,毛乌素沙地樟子松人工林土壤微生物生物量氮随着林龄的增加而降低,科尔沁沙地土壤微生物生物量氮随着林龄的增加而升高,呼伦贝尔沙地土壤微生物生物量氮随着林龄的增加呈先增加而后降低趋势。影响毛乌素沙地、科尔沁沙地和呼伦贝尔沙地土壤微生物生物量碳、氮的主要因子分别是硝态氮、铵态氮和有机质含量。毛乌素与科尔沁沙地樟子松人工林主要限制因子为土壤氮,而呼伦贝尔沙地樟子松受土壤有机碳限制较强。     

Genotype and slope position control on the availability of soil soluble organic nitrogen in tea plantations

Soluble organic nitrogen (SON) plays a vital role in ecosystem N cycling processes and is controlled by a number of biotic and abiotic factors. We compared soil SON availability, microbial biomass, protease and asparaginase activities and phospholipids fatty acid (PLFA) profiles at the 0?C15 and 15?C30 cm layers in 10 year old tea plantations of two genotypes??Oolong tea (Camellia sinensis (L.) O. Kuntze cv. Huangjingui) (designated as ??OT??) and Green tea (C. sinensis (L.) O. Kuntze cv. Fuyun 6) (designated as ??GT??)??established at different slope positions. Concentrations of soil SON measured by the 2 M KCl extraction under the OT plantation were greater than under the GT plantation, while concentrations of soil SON were greater in the middle slope (MS) and lower slope (LS) positions than in the upper slope (US) position. Trends in soil microbial biomass C and N and protease and asparaginase activities between the two genotypes and across the slope positions were similar to the SON pools. The fungal-to-bacterial ratios were higher in the US position than in the MS and LS positions and higher under the GT plantation than under the OT plantation. Results from this study support that the genotype and the slope position are key factors controlling the availability of soil SON in tea plantations and also imply the importance of plant traits (e.g. litter quantity and chemistry) and soil texture in determining overall soil N availability and transformation processes and microbial community composition at the landscape level.     

坡位对东灵山辽东栎林土壤微生物量的影响

土壤微生物量是陆地生态系统中的重要组成部分,在森林生态系统养分循环和能量转化中扮演着重要的角色。坡位作为重要的地形因子,会影响土壤微环境、土壤理化性质、地上植被的生长以及地下碳输入等,从而影响着土壤微生物量。以北京东灵山海拔1000—1800 m范围内分布的辽东栎林为研究对象,分析相同植被群落中坡位对土壤微生物量空间分布的影响。方差分析结果表明,土壤微生物量碳、氮在各坡位间均无显著差异(P>0.05),而土壤理化性质在各坡位间差异显著(P<0.05),其中,下坡位的土壤含水量、土壤有机碳、土壤全氮显著高于中坡位和上坡位。偏相关分析结果表明,土壤微生物量碳、氮与土壤含水量、土壤有机碳和土壤全氮显著正相关(P<0.05),与草本丰富度显著负相关(P<0.05)。进一步的通径分析结果表明,在上坡位和中坡位,土壤含水量和土壤有机碳是主要的影响因素;而在下坡位,草本丰富度对土壤微生物量的负作用凸显。不同坡位上影响因素的差异可能是导致土壤微生物量在不同坡位间无显著差异的原因。     

玉米生长期间土壤微生物量与土壤酶变化及其相关性研究

研究了玉米生长期间土壤微生物量碳、氮与土壤过氧化氢酶、蔗糖酶、脲酶、蛋白酶活性变化及其相关性．结果表明，玉米生长前期和中期，土壤微生物量碳、氮及酶活性迅速上升，并逐渐达到最大值；玉米生长后期，土壤微生物量碳、氮、酶活性下降至某一值后并逐渐趋于平稳．几种处理相比较，以秸秆＋尿素处理的土壤微生物量碳、氮及酶活性为最大．除玉米生长后期，土壤微生物量碳、氮与碱解氮、活性腐殖质、土壤ｐＨ不相关外，土壤微生物量碳、氮与土壤过氧化氢酶、蔗糖酶、脲酶、蛋白酶活性及速效养分在玉米生长期间均相关或极相关     

Responses of soil chemical and biological properties to nitrogen addition in a Dahurian larch plantation in Northeast China

Soil microbial properties play a key role in belowground ecosystem functioning, but are not well understood in forest ecosystems under nitrogen (N) enrichment. In this study, soil samples from 0–10 cm and 10–20 cm layers were collected from a Dahurian larch (Larix gmelinii Rupr.) plantation in Northeast China after six consecutive years of N addition to examine changes in soil pH, nutrient concentrations, and microbial biomass and activities. Nitrogen addition significantly decreased soil pH and total phosphorus, but had little effect on soil total organic carbon (TOC) and total N (TN) concentrations. The NO ₃ ^? -N concentrations in the two soil layers under N addition were significantly higher than that in the control, while NH ₄ ⁺ -N concentrations were not different. After six years of N addition, potential net N mineralization and nitrification rates were dramatically increased. Nitrogen addition decreased microbial biomass C (MBC) and N (MBN), and MBC/TOC and MBN/TN in the 0–10 cm soil layer, but MBC/MBN was increased by 67% in the 0–10 cm soil layer. Soil basal respiration, microbial metabolic quotient (qCO₂), and β-glucosidase, urease, acid phosphomonoesterase and nitrate reductase activities in the two soil layers showed little change after six years of N addition. However, soil protease and dehydrogenase activities in the 0–10 cm layer were 41% and 54% lower in the N addition treatment than in the control, respectively. Collectively, our results suggest that in the mid-term N addition leads to a decline in soil quality in larch plantations, and that different soil enzymes show differentiated responses to N addition.     

黄土丘陵区人工灌木林恢复过程中的土壤微生物生物量演变

采用时空互代法,以黄土丘陵区生态恢复过程中不同年限的人工柠条和沙棘林为研究对象,选取坡耕地和天然侧柏林为对照,分析了植被恢复过程中土壤微生物生物量、呼吸强度、代谢商(qCO₂)及土壤理化性质的演变特征.结果表明：生态恢复过程中人工柠条林土壤理化性质得到明显改善,微生物生物量随恢复年限的增加变化显著,柠条栽植7 a后微生物生物量碳较坡耕地显著增加,随后每5～7 a的变化均达到显著水平;微生物生物量氮和微生物生物量磷在前13 a无显著变化,20~30 a处于基本稳定期,较坡耕地显著增加,但明显低于天然侧柏林;呼吸强度随恢复年限的增加逐渐升高,20~25 a达到最大值,随后开始下降,30 a时达到最低值;qCO₂在恢复初期较坡耕地显著升高,随后迅速降低,30 a后回落至坡耕地之下,但仍显著高于天然侧柏林;不同灌木林对土壤质量的改善作用不同,恢复年限相同的沙棘林土壤微生物生物量、呼吸强度明显高于柠条林,但qCO₂无显著差异.相关性分析显示,微生物生物量碳、氮、磷、qCO₂与土壤养分和恢复年限显著相关.黄土丘陵区人工灌木林可通过生物的自肥作用恢复土壤肥力和增加微生物生物量,但要恢复到破坏前该地区顶级群落时的土壤微生物生物量和理化指标,必须加强林地管理,促进植物群落的拓殖与更替,且此过程相对于生态破坏过程要漫长的多.     

科尔沁沙地草地营造樟子松人工林对土壤化学和生物学性状的影响

以科尔沁沙地东南缘沙质草地和不同年龄樟子松（Pinus sylvestris var. mongolica）人工林（15、24和30年生）为对象,研究草地造林对土壤pH,土壤C、N、P含量,无机N（铵态氮、硝态氮）含量,C、N矿化速率,微生物生物量C含量以及土壤酶（脲酶、转化酶和过氧化氢酶）活性的影响.结果表明：草地造林初期,林地土壤C、N、P含量逐渐降低,随着林龄增加而逐渐恢复;与草地相比,24年生樟子松人工林土壤C、N、P含量最低,分别下降29%、34%和33%,而30年生樟子松人工林土壤C和N含量与草地差异不显著.草地造林能够影响土壤无机N存在形式,使土壤铵态氮含量逐渐增加,硝态氮含量下降.草地造林对土壤潜在N矿化速率和硝化速率影响不显著,但能够改变土壤C矿化速率,不同林龄樟子松人工林土壤C矿化速率依次为：24年生>30年生>草地>15年生.草地造林初期,土壤微生物生物量C含量和土壤转化酶活性明显降低,随着林龄的增加又逐渐增加;草地造林对土壤脲酶活性影响不显著,而使土壤过氧化氢酶活性逐渐增加.科尔沁沙地草地造林能够显著改变土壤化学和生物学性状,且随着林龄的变化而有所差异.     

樟子松人工林原产地与不同自然降水梯度引种地土壤和植物叶片生态化学计量特征

降水格局是影响陆地生态系统结构和过程的重要环境要素,尤其对于干旱/半干旱地区,降水变化是植物生长驱动的关键生态因子。目前,针对降水变化对陆地生态系统C、N、P等元素生物地球化学循环过程影响开展了大量研究。然而,关于沙地樟子松重要引种地科尔沁沙地自然降水梯度下沙地樟子松人工林土壤、植物生态化学计量特征的研究未见报道。因此,本研究以樟子松原产地红花尔基和引种地科尔沁沙地自然降水梯度下4个典型沙地樟子松人工林为对象,研究樟子松引种地降水变化对土壤(0—10,10—20 cm和20—40 cm)和植物(1年和2年生叶)生态化学计量特征的影响。研究结果发现:(1)与红花尔基原产地樟子松人工林相比,科尔沁沙地引种的樟子松人工林土壤C、N、P元素含量显著降低;(2)科尔沁沙地自西向东,随降水量增加,沙地樟子松人工林土壤C、N、P含量以及C∶P和N∶P表现为逐渐增加趋势,而土壤C∶N呈减少趋势;(3)随着降水量增加,樟子松叶C含量呈下降趋势,叶N含量和N∶P比值呈增加趋势,植物叶P含量无一致性规律;(4)樟子松叶片P含量与土壤C、N、P含量呈极显著正相关关系,而叶片C和N含量与土壤C、N、P含量无显著相关性。研究表明,沙地樟子松引种地科尔沁沙地土壤C、N、P养分比较缺乏,且随着降水增加土壤N养分限制降低,而土壤P养分限制增加。本研究从生态化学计量特征角度,为今后开展科尔沁沙地不同降水梯度条件下引种樟子松人工林提供理论依据。     

科尔沁沙质草地沙漠化过程中土壤生物活性的变化

选择相邻地段的固定沙丘、半固定沙丘和流动沙丘为对象,研究了科尔沁西部沙质草地沙漠化过程中土壤微生物量、土壤酶活性和土壤养分的变化特征以及三者之间的相关关系.结果表明:土壤养分含量、土壤酶活性和微生物量均随土壤深度的增加而逐渐降低;沙漠化过程中土壤养分严重丧失,土壤微生物量碳、氮、磷,以及土壤脲酶、蛋白酶、蔗糖酶、磷酸单酯酶、脱氢酶、多酚氧化酶和硝酸还原酶的活性均随沙漠化程度的加剧而大幅度下降;土壤生物活性对土壤沙漠化比较敏感,在固定沙丘到半固定沙丘的转化过程中土壤生物活性下降最快;土壤微生物量、土壤酶活性以及土壤养分之间均存在显著的相关关系.     

种植香根草对铜尾矿废弃地基质化学和生物学性质的影响

通过实地调查取样和室内分析,研究铜陵水木冲铜尾矿废弃地不同时期种植香根草(Vetiveria zizanioides L.)群落(近期种植香根草群落(V.zizanioides communities were established in the recent stage,JX),中期种植香根草群落(V.zizanioides communities were established in the middle stage,ZX)和早期种植香根草群落(V.zizanioides communities were established in the early stage,OX))对尾矿基质化学性质、微生物量和土壤酶活性的影响,探讨人工植被恢复对铜尾矿废弃地基质系统的修复作用。结果表明:香根草的定植能延缓铜尾矿的酸化过程,且随着香根草定植时间的延长,0—5 cm和5—20 cm层尾矿基质中总氮和速效磷含量提高(其中,0—5 cm层总氮积累更加显著),OX下0—5 cm表层基质总氮和速效磷的平均值分别是JX下的4.64倍和22.44倍。基质微生物量C、N含量和脱氢酶、过氧化氢酶、脲酶活性也随香根草种植时间的延长而有不同程度的升高,且基质化学性质对微生物量和酶活性有影响,其中基质微生物量C、N含量、脱氢酶和过氧化氢酶活性均与电导率呈显著或极显著负相关性;而基质微生物量N和4种酶活性均与总氮含量呈显著或极显著正相关性,表明总氮含量是影响基质微生物量N和酶活性的主要因子;基质微生物量N、脱氢酶和过氧化氢酶活性还与速效磷含量呈极显著正相关性。基质中Cu、Pb含量对脱氢酶、过氧化氢酶活性和微生物量均有显著抑制作用,而Zn对基质微生物活性有一定的激活作用。生长在尾矿废弃地上的香根草不仅显著地改善了铜尾矿废弃地的基质化学性质,且有利于基质微生物量和酶活性的增加,是一种良好的矿业废弃地生态修复物种。     

亚热带毛竹林土壤磷组分和微生物对施氮的响应

磷(P)是植物和微生物生长的重要营养元素,亚热带地区土壤P有效性较低,且长期高氮(N)沉降可能会造成土壤P有效性进一步降低。本试验开展于戴云山毛竹林,分析了施N 3年对土壤的基本理化性质、P组分、微生物生物量和酸性磷酸单酯酶活性的影响。结果表明: 施N显著增加了土壤NO₃^--N含量,提高了土壤N有效性,但显著降低了易分解态有机磷占全磷的比例,且总有机碳与总有机P的比例>200。土壤微生物生物量碳、微生物生物量磷、酸性磷酸单酯酶活性、微生物生物量碳/微生物生物量磷和微生物生物量氮/微生物生物量磷随施N量的增加而增加。此外,易分解态有机磷占总磷比例与微生物生物量磷呈显著负相关关系。因此,施N加剧了土壤P有效性限制,提高了微生物对P的需求。     

黄土丘陵区小流域侵蚀环境对土壤微生物量及酶活性的影响

土壤侵蚀环境直接影响土壤的特性,对土壤微生物的形成和稳定具有重要的影响。土壤微生物量推动着土壤的物质循环和能量流动,对土壤中各种环境的变化有很强的敏感性。土壤酶活性能表示土壤微生物功能的多样性,与土壤微生物量有着紧密的联系。为了探究不同侵蚀环境对土壤微生物量和酶活性的影响,以黄土丘陵区陈家坬小流域为研究区,选择5种不同侵蚀环境下0—10cm和10—20cm土层的土壤为研究对象,对土壤微生物量及其土壤蔗糖酶、脲酶和碱性磷酸酶活性进行了研究。结果表明:(1)土壤微生物量碳、氮、磷含量均表现为0—10cm大于10—20cm土层;土壤微生物量碳和磷在阴沟坡最大,在阳梁峁坡和峁顶较小,且阴沟坡和峁顶差异显著;土壤微生物量氮在阳沟坡最大,阴阳梁峁坡最小,差异性显著(P0.01)。(2)土壤脲酶、蔗糖酶和碱性磷酸酶活性均表现为0—10cm大于10—20cm土层,且在不同侵蚀环境下均表现为阴梁峁坡最大,阳梁峁坡最小。(3)相关性分析表明,土壤微生物量碳、氮、磷与土壤脲酶、蔗糖酶、碱性磷酸酶活性之间均有极显著的正相关。     

林下植被去除与氮添加对樟子松人工林土壤化学和生物学性质的影响

通过析因试验设计,研究了科尔沁沙地樟子松人工林生态系统内土壤无机氮(NO3--N+NH4+-N)含量,潜在净氮矿化(PNM)、硝化速率(PNN),微生物生物量碳(MBC)、氮(MBN)及MBC/MBN,土壤脲酶、酸性磷酸单酯酶活性和土壤有效磷(Olsen-P)含量对林下植被管理(对照和去除)和氮添加(对照和添加8g·m-2)的短期响应.结果表明:林下植被去除显著降低了土壤NH4+-N含量、PNM、MBC和MBC/MBN比值,提高了土壤Olsen-P含量,而对土壤NO3--N含量、PNN和土壤酶活性的影响不显著.氮添加提高了土壤NO3--N含量、PNM和PNN,但对其他指标的影响不明显,可能与试验处理时间较短有关.土壤NH4+-N含量对林下植被去除与氮添加的交互作用的响应显著;而NO3--N含量虽对林下植被去除与氮添加处理的交互作用响应不显著,但在氮添加同时进行林下植被去除的样地中的土壤NO3--N含量比只进行氮添加处理的样地提高了27％,有可能导致土壤中NO3-的淋失.林下植被是影响樟子松人工林土壤化学和微生物学性质的重要因素,因此在森林管理和恢复过程中,不能忽视林下植被的作用.     

科尔沁沙地不同年代小叶锦鸡儿人工林植物群落特征及其土壤特性

 研究了科尔沁沙地小叶锦鸡儿(Caragana microphylla)人工固沙林在0、5、13、21和28年的一个时间序列上土壤理化性状和植物群落特征及其恢复动态。结果表明：1) 土壤肥力随着人工植被建立时间的延长而逐渐恢复,表现为土壤粘粉粒含量、持水性能、土壤有机碳（SOC）和全氮（N）含量、潜在土壤呼吸在时间梯度上的增加,以及土壤容重和pH值的下降,0～5 cm表层土壤的恢复显著高于5～20 cm土壤;2) 在人工植被建立和发育的早期阶段 (0～13年),土壤肥力恢复的速率明显高于群落后期的演替阶段(13～28年);3) 灌丛对土壤肥力有明显的富集效应,随着人工群落发育时间的延长,“肥岛”面积扩展,富集率降低;4) 随着土壤环境条件的改善,侵入的草本植物种类数量、植被盖度增加,简单的人工植被向复杂的灌草群落演变。     

Biochemical properties of soils of undisturbed and disturbed mangrove forests of South Andaman (India)

Studies on soil quality of mangrove forests would be of immense use in minimizing soil degradation and in adopting strategies for soil management at degraded sites. Among the various parameters of soil quality, biological and biochemical soil properties are very sensitive to environmental stress and provide rapid and accurate estimates on changes in quality of soils subjected to degradation. In this study, we determined the general and specific biochemical characteristics of soils (0-30 cm) of inter-tidal areas of 10 undisturbed mangrove forest sites of S. Andaman, India. In order to determine the effects of disturbance, soils from the inter-tidal areas of 10 disturbed mangrove forest sites were also included in the study. The general biochemical properties included all the variables directly related to microbial activity and the specific biochemical parameters included the activities of extracellular hydrolytic enzymes that are involved in the carbon, nitrogen, sulfur and phosphorus cycles in soil. The pH, clay, cation exchange capacity, Al₂O₃ and Fe₂O₃ levels exhibited minimum variation between the disturbed and undisturbed sites. In contrast, organic C, total N, Bray P and K levels exhibited marked variation between the sites and were considerably lower at the disturbed sites. The study also revealed marked reductions in microbial biomass and activity at the disturbed sites. In comparison to the undisturbed sites, the levels of all the general biochemical parameters viz., microbial biomass C, microbial biomass N, N flush, basal respiration, metabolic quotient (qCO₂), ATP, N mineralization rates and the activities of dehydrogenase and catalase were considerably lower at the disturbed sites. Similarly, drastic reductions in the activities of phosphomonoesterase, phosphodiesterase, ß-g1ucosidase, urease, BAA-protease, casein-protease, arylsulfatase, invertase and carboxymethylcellulase occurred at the disturbed sites due mainly to significant reductions in organic matter/substrate levels. The data on CO₂ evolution, qCO₂ and ATP indicated the dominance of active individuals in the microbial communities of undisturbed soils and the ratios of biomass C:N, ATP:biomass C and ergosterol:biomass C ratios indicated low N availability and the possibility of fungi dominating over bacteria at both the mangrove sites. Significant and positive correlations between soil variables and biochemical properties suggested that the number and activity of soil microorganisms depend mainly on the quantity of mineralizable substrate and the availability of nutrients in these mangrove soils.     

降水变化对科尔沁沙地樟子松人工林土壤氮矿化和淋溶的影响

为研究降水量减少对沙地森林土壤氮循环过程的影响,以科尔沁沙地15年生樟子松人工林为研究对象,野外模拟不同降水量（自然降水、减少30%和50%）对沙地樟子松人工林土壤无机氮（SIN）含量、氮矿化速率和淋溶动态的影响。研究结果发现,沙地樟子松人工林SIN主要以硝态氮形态存在,模拟降水减少降低土壤硝态氮含量（P<0.05）和硝态氮/SIN值（P<0.001）,而增加土壤铵态氮含量（P<0.05）。与自然降水相比,降水减少降低土壤净硝化速率和净矿化速率（P=0.002）,但不同降雨处理的土壤净氨化速率差异不显著（P=0.86）。科尔沁沙地樟子松人工林土壤以硝态氮淋溶为主,不同降雨处理土壤硝态氮淋溶量差异不显著（P=0.09）,但模拟降水减少降低土壤铵态氮淋溶（P=0.04）。此外,沙地樟子松人工林SIN含量、净氮矿化速率和淋溶量具有明显月动态特征,与降雨月动态规律基本一致。降水处理和采样时间对SIN含量和净氮矿化速率具有显著交互作用,但土壤氮淋溶量的交互作用不显著。可见,降水变化能够显著影响科尔沁沙地樟子松人工林土壤氮有效性、氮矿化速率和淋溶等过程,未来干旱加剧可能降低科尔沁沙地樟子松人工林土壤氮的可利用性。     

Soil microbial activities in Luvisols and Anthrosols during 9 years of region-typical tillage and fertilisation practices in northern Germany

In order to evaluate soil functions of contemporary agricultural management practices, the adjustment of microbial biomass and C and N mineralisation capacities was monitored during 9 years following the implementation of conventional and reduced tillage, and mineral N and pig slurry fertilisation systems. Soil microbial biomass content and microbial activities decreased continuously from initial values. The decrease was slowed by slurry application, compared to either no or mineral N fertilisation, and both slurry and mineral N application stimulated soil microbial activities in the long-term. There were no significant differences in microbiological characteristics between conventional and reduced tillage for the 0 to 30 cm soil depth but microbial biomass and activity were highest from 0 to 15 cm depth under reduced tillage. Changes in several microbial properties became evident when analysing the whole experiment of 9 years and the soil unit is also of importance as shown by higher microbial activity level in Anthrosols in comparison to Luvisols.