Reduced tillage,but not organic matter input,increased nematode diversity and food web stability in European long‐term field experiments

Soil nematode communities and food web indices can inform about the complexity, nutrient flows and decomposition pathways of soil food webs, reflecting soil quality. Relative abundance of nematode feeding and life‐history groups are used for calculating food web indices, i.e., maturity index (MI), enrichment index (EI), structure index (SI) and channel index (CI). Molecular methods to study nematode communities potentially offer advantages compared to traditional methods in terms of resolution, throughput, cost and time. In spite of such advantages, molecular data have not often been adopted so far to assess the effects of soil management on nematode communities and to calculate these food web indices. Here, we used high‐throughput amplicon sequencing to investigate the effects of tillage (conventional vs. reduced) and organic matter addition (low vs. high) on nematode communities and food web indices in 10 European long‐term field experiments and we assessed the relationship between nematode communities and soil parameters. We found that nematode communities were more strongly affected by tillage than by organic matter addition. Compared to conventional tillage, reduced tillage increased nematode diversity (23% higher Shannon diversity index), nematode community stability (12% higher MI), structure (24% higher SI), and the fungal decomposition channel (59% higher CI), and also the number of herbivorous nematodes (70% higher). Total and labile organic carbon, available K and microbial parameters explained nematode community structure. Our findings show that nematode communities are sensitive indicators of soil quality and that molecular profiling of nematode communities has the potential to reveal the effects of soil management on soil quality.     

Nitrogen Addition Regulates Soil Nematode Community Composition through Ammonium Suppression

Nitrogen (N) enrichment resulting from anthropogenic activities has greatly changed the composition and functioning of soil communities. Nematodes are one of the most abundant and diverse groups of soil organisms, and they occupy key trophic positions in the soil detritus food web. Nematodes have therefore been proposed as useful indicators for shifts in soil ecosystem functioning under N enrichment. Here, we monitored temporal dynamics of the soil nematode community using a multi-level N addition experiment in an Inner Mongolia grassland. Measurements were made three years after the start of the experiment. We used structural equation modeling (SEM) to explore the mechanisms regulating nematode responses to N enrichment. Across the N enrichment gradient, significant reductions in total nematode abundance, diversity (H' and taxonomic richness), maturity index (MI), and the abundance of root herbivores, fungivores and omnivores-predators were found in August. Root herbivores recovered in September, contributing to the temporal variation of total nematode abundance across the N gradient. Bacterivores showed a hump-shaped relationship with N addition rate, both in August and September. Ammonium concentration was negatively correlated with the abundance of total and herbivorous nematodes in August, but not in September. Ammonium suppression explained 61% of the variation in nematode richness and 43% of the variation in nematode trophic group composition. Ammonium toxicity may occur when herbivorous nematodes feed on root fluid, providing a possible explanation for the negative relationship between herbivorous nematodes and ammonium concentration in August. We found a significantly positive relationship between fungivores and fungal phospholipid fatty acids (PLFA), suggesting bottom-up control of fungivores. No such relationship was found between bacterivorous nematodes and bacterial PLFA. Our findings contribute to the understanding of effects of N enrichment in semiarid grassland on soil nematode trophic groups, and the cascading effects in the detrital soil food web.     

川西亚高山/高山森林土壤线虫多样性

为了解青藏高原东缘亚高山/高山森林土壤线虫多样性,于2015年7月以该地区岷江冷杉原始林、混交林和次生林为研究对象,采用淘洗-过筛-蔗糖离心的方法分离土壤线虫,研究了3个海拔森林土壤线虫群落的组成与结构特征.结果表明: 共捕获线虫37950条,隶属于20科27属,平均为4217 条·100 g^-1干土,原始林以丝尾垫刃属为优势属,混交林和次生林以丝尾垫刃属和拟盘旋属为优势属,且优势属个体数量受林型的影响显著.原始林和次生林的优势营养类群为食真菌线虫,混交林则为食细菌线虫.土壤线虫c-p (colonizer-persister)类群c-p 1、c-p 2、 c-p 3和c-p 4数量分别占总数的6.1%、51.1%、30.0%和12.7%.3个海拔森林土壤线虫的自由生活线虫成熟度指数(MI)、总成熟度指数(∑MI)和植物寄生线虫成熟度指数(PPI)随海拔增加而逐渐降低.土壤线虫通路指数(NCR)在混交林高于0.5,在原始林和次生林低于0.5.林型显著影响了土壤线虫成熟度和NCR指数,但林型、土层及二者的交互作用对多样性指数影响不显著.川西亚高山/高山不同森林土壤线虫的组成、营养结构和能流通道存在明显差异,为深入理解土壤线虫在该区森林土壤生态过程中的作用提供了参考.     

Restored native prairie supports abundant and species‐rich native bee communities on conventional farms

Native pollinators are increasingly needed on conventional farms yet rarely fostered via management. One solution is habitat restoration in marginal areas, but colonization may be constrained if resident pollinator richness is low or if restored areas fail to provide sufficient floral or nesting resources. We quantified restoration outcomes for native bees, and associated resources, on three conventional farms with forb‐grass prairie plantings on marginal areas of varying sizes, in a heavily farmed region of central North America. We tested bee abundance and richness in restored prairie versus the dominant habitats of the region—crops, forest remnants, and edges of fields and roads. Restored prairie supported 2× more species (95 of 119 total species) and 3× more bees (72% of captured individuals) compared to the other cover types. All richness and abundance differences among habitat types were associated with higher floral resources in restored prairie. Thirty percent of the bee species were unique to prairie, consistent with long‐distance dispersal but begging the question of origin given the absence of prairie regionally. Our results suggest that road and field edges may be the source, as these areas had more floral and nesting resources than forest or crop fields combined and supported 55% of all species despite covering only approximately 5% of the sampled farms. Habitat scarcity is not the only constraint on native bees in agricultural landscapes, with increasing concern over disease and chemicals. However, we observed that restored areas on marginal lands of conventional farms can support abundant and species‐rich populations of native bees.     

Sensitivity of Nematode Life-History Groups to Ions and Osmotic Tensions of Nitrogenous Solutions

Guild designation of nematodes of similar trophic function and life-history strategy provides a basis for using nematode faunal analyses in an integrative assessment of soil food web condition. Omnivorous and predaceous nematodes, categorized at the upper end of a colonizer-persister (c-p) continuum of nematode functional guilds are generally not abundant in cropped soil. These nematodes are more sensitive to heavy metal concentrations than those in other c-p groups, but whether sensitivity to agrochemicals contributes to the observed low abundance of high c-p groups in cropped soils is less well understood. An exposure assay in solution was used to compare the sensitivity of nematodes representing various guilds obtained from field soils and from laboratory culture to several nitrogen sources. Nematodes in c-p groups 4 and 5 were more sensitive to nitrogen solutions than nematodes representing lower c-p groups. There were both osmotic and specific ion effects—the latter most evident in exposure of nematodes to NaNO₂ and (NH₄)₂SO₄. The RC₅₀ (concentration resulting in nematode recovery of one half of that of distilled water) for (NH₄)₂SO₄ was < 0.052 M-N for c-p groups 4 and 5 compared to much greater values (0.34 to 0.81 M-N) for c-p groups 1 to 3. In non-ionic polyethylene glycol (PEG) solutions, osmotic tensions of 0.40 to 0.43 MPa reduced the recovery of exposed nematodes by half (RT₅₀; water potential of solution resulting in nematode recovery of one half of that of distilled water) for c-p groups 4 and 5 compared to > 1.93 MPa for c-p groups 1 to 3. RT₅₀ values for urea solutions, also non-ionic, were greater than for PEG. Caenorhabditis elegans N2 (c-p 1) and Meloidogyne javanica (c-p 3) reared on solid medium and in hydroponic culture, respectively, were slightly more sensitive to specific ion and osmotic effects than nematodes of similar c-p groups obtained from soil. The greater sensitivity of c-p 4 and 5 nematodes to nitrogen solutions suggests that fertilizers may contribute to the low abundance of these nematodes in annual cropping systems. This study supports the use of nematode faunal analyses as indicators of chemical stress in soil.     

Effect of slow-release urea on soil nematode community structure in a Chinese soybean field

The effect of slow-release urea on soil nematode community structure was investigated in a soybean field in northeast China.Three treatments,no urea (CK),conventional urea (U) and slow-release urea (SRU),were arranged in a completely random design.The results show that the abundance of total nematodes was significantly higher in SRU than in CK and U.Significant differences in the abundance of bacterivores with colonizer-persister (cp) values 2-3,fungivores with cp 2 and herbivores with cp 3 were found among different treatments.Forty-one genera were identified,of which Acrobeloides,Aphelenchus and Heterodera were dominant.Soil nematode guilds and genera exhibited different responses to slow-release urea.The most trophic groups and genera had greater abundances in SRU than in CK and U.Slow-release urea had a positive effect on soil nematode community structure.     

Effects of Grazing on Restoration of Southern Mixed Prairie Soils

A comparative analysis of soils and vegetation from cultivated areas reseeded to native grasses and native prairies that have not been cultivated was conducted to evaluate restoration of southern mixed prairie of the Great Plains over the past 30 to 50 years. Restored sites were within large tracts of native prairie and part of long‐term grazing intensity treatments (heavy, moderate, and ungrazed), allowing evaluation of the effects of grazing intensity on prairie restoration. Our objective was to evaluate restored and native sites subjected to heavy and moderate grazing regimes to determine if soil nutrients from reseeded cultivated land recovered after 30 years of management similar to the surrounding prairie and to identify the interactive influence of different levels of grazing and history of cultivation on plant functional group composition and soils in mixed prairies. For this mixed prairie, soil nitrogen and soil carbon on previously cultivated sites was 30 to 40% lower than in uncultivated native prairies, indicating that soils from restored sites have not recovered over the past 30 to 50 years. In addition, it appears that grazing alters the extent of recovery of these grassland soils as indicated by the significant interaction between grazing intensity and cultivation history for soil nitrogen and soil carbon. Management of livestock grazing is likely a critical factor in determining the potential restoration of mixed prairies. Heavy grazing on restored prairies reduces the rate of soil nutrient and organic matter accumulation. These effects are largely due to changes in composition (reduced tallgrasses), reduced litter accumulation, and high cover of bare ground in heavily grazed restored prairies. However, it is evident from this study that regardless of grazing intensity, restoration of native prairie soils requires many decades and possibly external inputs to adequately restore organic matter, soil carbon, and soil nitrogen.     

Effect of slow-release urea on soil nematode community structure in a Chinese soybean field

The effect of slow-release urea on soil nematode community structure was investigated in a soybean field in northeast China. Three treatments, no urea (CK), conventional urea (U) and slow-release urea (SRU), were arranged in a completely random design. The results show that the abundance of total nematodes was significantly higher in SRU than in CK and U. Significant differences in the abundance of bacterivores with colonizer-persister (cp) values 2–3, fungivores with cp 2 and herbivores with cp 3 were found among different treatments. Forty-one genera were identified, of which Acrobeloides, Aphelenchus and Heterodera were dominant. Soil nematode guilds and genera exhibited different responses to slow-release urea. The most trophic groups and genera had greater abundances in SRU than in CK and U. Slow-release urea had a positive effect on soil nematode community structure.     

Influence of ecological and edaphic factors on biodiversity of soil nematodes

Nematodes are the most diverse and highly significant group of soil-inhabiting microorganisms that play a vital role in organic material decomposition and nutrient recycling.Diverse geographical locations and environmental gradients show a significant impact on the diversity of nematodes. Present study aims to assess the effects of ecological (altitude, temperature, moisture) and edaphic (soil pH, nutrients, soil patches) factors on the soil nematode diversity and structure at five different landscape patches (forests, apple orchards, rice fields, pastures, and alpine zone) from ten different sites of Kashmir valley (India). Differences in the altitudinal gradients results in the shift of generic nematode population. Among the soil patches, highest nematode diversity was observed in forest soil and least in alpine soil; however, bacteriovorous nematodes dominated all the soil patches. The temperature and moisture have a significant effect on nematode diversity, the highest nematode trophic levels were observed above 21°C temperature, and 30% moisture. Nematode abundance decreased from alkaline to acidic pH of the soil. Soil nutrients such as, nitrogen (N) and phosphorus (P) have shown a detrimental effect in nematode richness at each site, where nematode diversity and richness of genera were higher at abundant soil N and P but decreased at low soil nutrients. Ecological indices like diversity index (DI), Shannon-Wiener Index (H'), enrichment index (EI), and maturity Index (MI) values demonstrated forest soil more favourable for nematodes and high soil health status than other soil patches. This study suggested that these indices may be helpful as soil monitoring tools and assessing ecosystem sustainability and biodiversity.     

天然高寒草地转变为燕麦人工草地对土壤线虫群落的影响

为查明高寒草地上种植燕麦(Avena sativa)对土壤线虫群落的影响,于2014年7、9月用土钻法和湿漏斗法(Baermann法)对西南民族大学青藏高原畜牧业高科技研发示范基地内燕麦地(Oat grassland,OG)和天然草地(Natural grassland,NG)的土壤线虫群落进行调查。共分离土壤线虫10179条,隶属于2纲8目50科143属,平均密度477条/100g干土。燕麦地与天然草地土壤线虫群落结构具有明显差异,影响群落结构的主要类群为拟丽突属(Acrobeloides)、原杆属(Protorhabditis)、丝尾垫刃属(Filenchus)和盘旋属(Rotylenchus),但不同月份间存在差异。燕麦地的土壤线虫群落密度、食细菌线虫密度、食真菌线虫密度和自由生活线虫成熟度指数(MI)均显著高于天然草地(P0.01;P0.05;P0.001;P0.01),植物寄生线虫成熟度指数(PPI)则显著低于天然草地(P0.05)。两种草地7月份的土壤线虫群落类群数和香农多样性指数(H′)均显著低于9月(P0.05),仅燕麦地7月份的食细菌、食真菌线虫密度和Simpson优势度指数(C)显著高于9月(P0.05;P0.001;P0.01)。典范对应分析(Canonical correspondence analysis,CCA)及回归分析结果表明,土壤pH、有机质、全氮、速效磷和含水量是影响线虫群落的主要环境因子。研究结果表明,高寒草地种植燕麦后在短期内改变了线虫群落结构,增加了线虫群落密度以及食细菌和食真菌线虫在群落中的比例,以植物寄生线虫为主的群落营养结构转变为以食细菌线虫为主,同时也增加了线虫群落不同月份间的差异。     

紫色土线虫对长期不同施肥措施的响应

土壤线虫在农田生态系统中数量丰富且对土壤环境变化敏感, 可用于评估不同田间管理条件下的土壤健康。本文探究了紫色土区长期不同施肥措施及土壤团聚体粒径对线虫群落的分布及其生态功能多样性的影响。试验设置了5个施肥处理: 不施肥(对照, CK)、单施化肥(NPK)、生物炭 + 化肥(BCNPK)、商品猪粪 + 化肥(OMNPK)和秸秆 + 化肥(RSDNPK)。团聚体粒径分为: 原状土(BS)、大团聚体(> 2 mm; LA)和小团聚体(0.25-2 mm; SA)。结果表明, 与对照相比, 施肥可促进线虫数量增长, 其中单施化肥处理下增幅最小(66%); 有机物料与化肥配施对线虫数量的提升更为显著, 秸秆 + 化肥处理下增幅达206%。不同施肥处理间线虫类群相对丰度差异显著, 大小均表现为: 食细菌线虫(BA) > 杂食/捕食线虫(OP) > 植食线虫(PP) > 食真菌线虫(FU)。小团聚体较其他土壤团聚体的杂食/捕食线虫丰度更低, 食细菌线虫丰度较高。秸秆与化肥配施处理下线虫群落结构指数和富集指数显著增加, 且各施肥处理下线虫功能足迹呈现明显差异。有机肥与化肥配施(尤其是秸秆 + 化肥)可提高土壤养分供应且有利于形成稳定健康的土壤生态系统, 助推区域农业的可持续发展。     

优化施肥对设施蔬菜地土壤线虫群落的影响

高强度利用下设施蔬菜地的施肥过量问题导致了土壤质量的严重退化,合理施肥是维持蔬菜地生产力和可持续发展的重要措施.本研究比较了常规施肥和优化施肥两种施肥方式下连续种植番茄和辣椒后土壤理化性质、线虫群落及蔬菜产量的差异.结果表明: 优化施肥处理土壤pH显著高于常规施肥处理,且番茄和辣椒产量分别提高了9.0%和6.9%.与常规施肥相比,优化施肥提高了土壤线虫数量和食细菌线虫的相对多度,但降低了食真菌线虫和植食性线虫的相对多度.两季蔬菜种植过程中,不同施肥处理土壤寄生线虫成熟指数、多样性指数和丰富度指数无显著差异.优化施肥土壤线虫通路比值(0.67～0.84)显著高于常规施肥(0.39～0.64),前者土壤食物网的分解途径以细菌为主,而后者则为真菌控制.综合土壤理化性质、线虫数量和群落及蔬菜产量指标,优化施肥措施能够在促进蔬菜生长的同时,显著改善土壤生态环境.     

地上部植食者褐飞虱对不同水稻品种土壤线虫群落的影响

地上和地下部生物群落的交互作用对于调控陆地生态过程具有重要作用。在盆栽条件下利用2×2析因设计研究了褐飞虱(Nilaparvata lugens)取食不同水稻品种后对土壤线虫群落的影响。结果表明, 褐飞虱侵害水稻9 d后, 感虫品种(广四和汕优63)的土壤线虫总数、属数及自生线虫(食细菌线虫、食真菌线虫和捕食性线虫)数量增加, 并且一般达到显著水平(P<0.05); 而上述指标在抗虫品种(汕优559和IR36)土壤中则呈现相反的趋势。植食性线虫数量在强感虫品种广四上显著增加(P<0.05), 而在强抗虫品种IR36上显著减少(P<0.05)。褐飞虱和水稻品种对土壤线虫的生态指数(线虫通道指数、Shannon-Wiener指数、成熟度指数、富集指数和结构指数)没有明显影响, 可能与供试土壤线虫群落组成单一及褐飞虱作用时间较短有关。总之, 褐飞虱强烈影响土壤线虫数量、群落组成和营养结构, 并且作用的方向(促进或抑制)和程度依赖于水稻的品种特性, 揭示出地上部植食者的短期侵害将对稻田土壤生态系统的结构和功能产生深远影响。     

黄土高原半干旱区不同苜蓿-作物种植方式下土壤线虫群落组成及代谢足迹

线虫群落在土壤生态系统物质循环和能量流动过程中起着重要的作用。本研究以宁夏南部山区3种苜蓿-作物种植方式[苜蓿连作(A-A)、苜蓿-玉米轮作(A-C)、苜蓿-马铃薯轮作(A-P)]为对象,探讨不同种植方式下土壤理化性质、线虫群落组成结构及代谢足迹特征,评价黄土高原半干旱区苜蓿-作物种植方式对土壤食物网结构和功能的影响。结果表明: 1)与苜蓿连作相比,苜蓿-玉米和苜蓿-马铃薯轮作方式下土壤有机碳含量分别增加了4.6%、7.4%,全氮含量分别增加了4.0%、5.2%,土壤微生物生物量碳和氮也有显著提高;2)在苜蓿连作方式下,线虫总多度为211 条·100 g^-1干土,植食线虫为优势营养类群(35.7%),而在苜蓿-玉米和苜蓿-马铃薯轮作方式下,土壤线虫总多度较苜蓿连作有所增加(分别增加49.5%、93.7%),捕-杂食线虫成为优势营养类群(所占比例分别为45.7%、37.6%);3)相较于苜蓿连作,苜蓿-作物轮作方式下,植物寄生线虫指数(PPI)显著降低,表明植物寄生线虫在土壤食物网中的危害减轻;而线虫通路指数(NCR)有所增加,表明苜蓿-作物轮作方式下,土壤有机质分解过程中细菌分解作用进一步增强;4)苜蓿-作物轮作方式下,土壤线虫成熟度指数(MI)及其复合足迹、富集足迹、结构足迹均显著提高,土壤线虫的生产力和代谢活性显著增强,线虫群落的结构和功能更为成熟稳定。研究表明,相比苜蓿连作,苜蓿-作物轮作改善了土壤养分状况,使得土壤食物网的资源输入和能量利用效率均有所增加,受干扰程度显著降低,土壤生态系统更为稳定健康,因而有利于农业的可持续发展。     

Structural Attributes of Schizachyrium scoparium in Restored Texas Blackland Prairies

Structural attributes of the C₄, perennial bunchgrass Schizachyrium scoparium in restored prairies may be affected by the time since restoration. One hundred plants each in 8‐, 17‐, and 23‐year‐old restored prairies and a native Texas Blackland prairie were assessed for the presence/absence and diameter of a hollow crown (i.e., dead center portion), degree of fragmentation, plant height, and tiller density. Structural attributes of S. scoparium plants were generally (1) different between recent (8 years) and older (17 and 23 years) restored prairies (2) similar between the 17‐ and 23‐year‐old restored prairies, and (3) more similar between the 8‐ and 17‐year restored prairies and the native, remnant prairie than between the 23‐year restored prairie and the native prairie. Plants were shorter in restored prairies, regardless of time since restoration, than in the native prairie. Mean basal area of plants was 80–163% greater in the 17‐ and 23‐year restored prairies compared with the native and 8‐year restored prairies. Percentage of hollow crowns and fragmentation was smallest in the 8‐year restored prairie, largest in the 17‐ and 23‐year restored prairies, and intermediate in the native prairie. Tiller density exhibited inverse second‐order polynomial decreases with increasing plant basal area for all prairies. In contrast to tiller density, diameter of hollow crowns increased logarithmically with increasing plant basal area. Structural attributes of S. scoparium in restored prairies changed predictably with age, despite growing in different communities.     

大庆油田石油开采对土壤线虫群落的影响

选择大庆油田环境一致的6口油井,研究石油开采干扰对土壤线虫的影响。共鉴定出土壤线虫18科15属。食细菌线虫最多,共15属占总数的49.2%,其次为植物寄生线虫共9属,占30.6%,食真菌线虫4属,占17.6%,杂食/捕食线虫2属,占2.6%。其中优势类群为丝尾垫刃属Filenchus和头叶属Cephalobus,占总数的42.5%。常见类群包括13个属,占总数的51.7%。稀有类群15个属占总数的6.34%。土壤的线虫生活史策略以c-p 2所占比例最大,其次是c-p3和c-p 1类群,受油井开采作业等影响,线虫通过大量繁殖来应对环境的干扰与压力。不同油井线虫总数差异不显著,但所有油井线虫总数比对照明显减少(p<0.001)。不同油井线虫群落结构差异不大,各油井线虫富集指数和结构指数表明所有油井线虫受干扰程度较高,土壤食物网趋于退化。随着采样距离增加,线虫总量差异不显著,但线虫群落的物种数量增加,优势度指数和多样性指数逐渐增加。结果表明油井开采对土壤线虫群落有一定的影响,开采距离对线虫群落结构影响较大。     

氮肥减施与配施有机肥对冬小麦土壤线虫群落结构的影响

土壤线虫是指示土壤健康的典型生物之一,为了揭示氮肥减施对土壤健康的影响,以冬小麦土壤为对象,研究了氮肥减施和配施有机肥对拔节期冬小麦土壤线虫群落结构的影响。共设置了6个施肥处理:CF(315 kg N·hm^-2,常规施肥量)、N₂₄₀(240 kg N·hm^-2)、N₂₁₀(210 kg N·hm^-2)、N₁₈₀(180 kg N·hm^-2)、F₁₅₀(180 kg N·hm^-2+150 kg·hm^-2黄腐酸)、F₂₂₅(180 kg N·hm^-2+225 kg·hm^-2黄腐酸)。结果表明: 1)氮肥减施会降低土壤线虫数量,降幅为15.3%～68.5%;2)各处理均以原杆属为优势属(19.6%～50.4%)。氮肥减施提高了食真菌类、植食类和捕食/杂食类线虫的丰度,食细菌类线虫的丰度先降低后升高。配施有机肥后,食细菌类和食真菌类线虫的丰度降低,植食类和捕食/杂食类线虫丰度升高;3)N₂₄₀和F₂₂₅处理分别使线虫多样性指数H提高了48.1%和58.5%。N₂₄₀处理线虫成熟度指数MI最高(1.95)。N₁₈₀处理线虫结构指数SI最低(43.33),配施有机肥的F₂₂₅线虫结构指数SI达到62.72,但线虫富集指数EI最低(80.82)。说明减施氮肥并配施有机肥可以提高土壤线虫的多样性,使食物网向复杂稳定方向发展,对农田土壤生态系统有积极意义。     

增施氮肥能够缓解麦田土壤线虫群落对O3浓度升高的响应

在辽宁沈阳农田生态系统国家野外科学观测研究站,利用运行2a的开顶式气室,研究了臭氧(O3)浓度升高和不同氮肥施用水平对土壤线虫群落的影响。结果表明:(1)O3浓度升高降低了成熟期小麦根生物量。O3浓度升高和不同氮肥施用水平的交互作用改变了小麦成熟期土壤微生物生物量碳、氮和水溶性有机碳的含量。低氮条件下,O3浓度升高降低了土壤微生物生物量碳、氮和水溶性有机碳的含量;而高氮条件下则表现出相反的趋势。(2)O3浓度升高和不同氮肥施用水平对土壤线虫总数没有产生显著影响,而在灌浆期,食细菌线虫和食真菌线虫中c-p值为4(Ba4 and Fu4)的功能团对O3浓度升高和不同氮肥施用水平的响应敏感;与对照相比,不同氮处理中,O3浓度升高均降低了灌浆期Ba4功能团线虫的数量。灌浆期,O3浓度升高条件下,与对照相比Fu4功能团线虫数量在高氮条件下表现出增加的趋势,而在低氮条件表现出降低的趋势。(3)O3浓度升高和不同氮肥施用水平的交互作用显著影响了小麦灌浆期线虫的成熟度指数(MI)和结构指数(SI)。与对照相比,线虫成熟度指数和结构指数在低氮条件下随O3浓度升高而降低;而在高氮条件下随O3浓度升高而升高。上述结果表明,氮肥的施用能够缓解O3浓度升高对土壤食物网的扰动。     

Soil Nematode Responses to Increases in Nitrogen Deposition and Precipitation in a Temperate Forest

The environmental changes arising from nitrogen (N) deposition and precipitation influence soil ecological processes in forest ecosystems. However, the corresponding effects of environmental changes on soil biota are poorly known. Soil nematodes are the important bioindicator of soil environmental change, and their responses play a key role in the feedbacks of terrestrial ecosystems to climate change. Therefore, to explore the responsive mechanisms of soil biota to N deposition and precipitation, soil nematode communities were studied after 3 years of environmental changes by water and/or N addition in a temperate forest of Changbai Mountain, Northeast China. The results showed that water combined with N addition treatment decreased the total nematode abundance in the organic horizon (O), while the opposite trend was found in the mineral horizon (A). Significant reductions in the abundances of fungivores, plant-parasites and omnivores-predators were also found in the water combined with N addition treatment. The significant effect of water interacted with N on the total nematode abundance and trophic groups indicated that the impacts of N on soil nematode communities were mediated by water availability. The synergistic effect of precipitation and N deposition on soil nematode communities was stronger than each effect alone. Structural equation modeling suggested water and N additions had direct effects on soil nematode communities. The feedback of soil nematodes to water and nitrogen addition was highly sensitive and our results indicate that minimal variations in soil properties such as those caused by climate changes can lead to severe changes in soil nematode communities.     

Recovery of Native Plant Community Characteristics on a Chronosequence of Restored Prairies Seeded into Pastures in West‐Central Iowa

Restored grasslands comprise an ever‐increasing proportion of grasslands in North America and elsewhere. However, floristic studies of restored grasslands indicate that our ability to restore plant communities is limited. Our goal was to assess the effectiveness of restoration seeding for recovery of key plant community components on former exotic, cool‐season pastures using a chronosequence of six restoration sites and three nearby remnant tallgrass prairie sites in West‐Central Iowa. We assessed trends in Simpson's diversity and evenness, richness and abundance of selected native and exotic plant guilds, and mean coefficient of conservatism (mean C). Simpson's diversity and evenness and perennial invasive species abundance all declined with restoration site age. As a group, restoration sites had greater richness of native C₃ species with late phenology, but lower richness and abundance of species with early phenology relative to remnant sites. Total native richness, total native abundance (cover), mean C, and abundance of late phenology C₃ plants were similar between restoration and remnant sites. Observed declines in diversity and evenness with restoration age reflect increases in C₄ grass abundance rather than absolute decreases in the abundance of perennial C₃ species. In contrast to other studies, restoration seeding appears to have led to successful establishment of tallgrass prairie species that were likely to be included in seeding mixtures. While several floristic measures indicate convergence of restoration and remnant sites, biodiversity may be further enhanced by including early phenology species in seeding mixes in proportion to their abundance on remnant prairies.