土地利用对土壤线虫营养类群垂直分布和季节变化的影响

A field investigation was conducted at the Shenyang Experimental Station of Ecology, Chinese Academy of Sciences, in an aquic brown soil of Northeast China under three land use types （cropland, abandoned cropland, and woodland） in order to evaluate whether the vertical distribution and seasonal fluctuation for the number of total nematodes and trophic groups could reflect soil ecosystem differences and to determine the relationships between soil chemical properties and soil nematodes. The majority of soil nematodes were present in the 0-20 cm soil layers, and for these land use types plant parasites were the most abundant trophic group. In the abandoned cropland the numbers of plant parasites reached a peak on the August sampling date, whereas the cropland and woodland peaked on the October sampling date. Meanwhile, in all land use types the number of total nematodes, bacterivores, plant parasites, and omnivores-predators was negatively （P 〈 0.05, except for bacterivores in cropland, which was not significant） correlated with bulk density, and positively （P 〈 0.05, except for fungivores in abandoned cropland, which was not significant） correlated with total organic carbon and total nitrogen.     

地中海农业生态系统中土壤自生线虫种群多样性及动态研究

To determine the effect of agricultural management on the dynamics and functional diversity of soil nematode communities in a carrot field at Kibbutz Ramat Hakovesh, Israel, soil samples from 0--10 cm and 10--20 cm depths were collected during the growing season of carrot. Indices were used to compare and assess the response of soil free-living nematode communities to agricultural management. Eighteen nematode families and 20 genera were observed during the growing period, with Cephalobus, Rhabditidae, Aphelenchus, Tylenchus, and Dorylaimus being the dominant genera/families. During the planting, mid-season and post-harvest periods the total number of nematodes at both depths was significantly lower (P < 0.01) in the carrot treatment than in the control plots, while during the harvest period at both depths total nematodes and bacterivores were significantly higher in the treatment plots (P < 0.01). The values of the maturity index (MI) at both depths were found to be significantly lower in the treatment plots than in the control plots during the pre-planting period (P < 0.05). Overall, WI, MI and PPI were found to be more sensitive indicators than other ecological indices for assessing the response of nematode communities to agricultural management in a Mediterranean agroecosystem.     

中国热带地区不同作物长期轮作对土壤线虫群落结构及多样性的影响

A field experiment was carried out from 2003 to 2013 in the Wanzhong Farm of the Hainan Island, China, to determine the effects of two long-term banana rotations on the abundance and trophic groups of soil nematode communities in the island. The experiment was set out as a randomized complete block design with three replications of three treatments: banana-pineapple rotation(AB), banana-papaya rotation(BB) and banana monoculture(CK) in a conventional tillage system. Soil samples were taken at depths of 0–10, 10–20 and 20–30 cm, and nematodes were extracted by a modified cotton-wool filter method and identified to the genus level. Nematode ecological indices of Shannon-Weaver diversity(H′), dominance index(λ), maturity index(MI), plant parasite index(PPI), structure index(SI), enrichment index(EI), and channel index(CI) were calculated. A total of 28 nematode genera with relative abundance over 0.1% were identified, among which Tylenchus and Paratylenchus in the AB, Thonus in the BB, Tylenchus and Helicotylenchus in the CK were the dominant genera. The rotation soils favored bacterivores, fungivores and omnivores-predators with high colonizer-persister(c-p) values. Soil food web in the rotation systems was highly structured, mature and enriched as indicated by SI, MI and EI values, respectively. Higher abundance of bacterivores and lower values of CI suggested that the soil food web was dominated by a bacterial decomposition pathway in rotation soils. Nematode diversity was much higher after a decade of rotation.Soil depth had significant effects on the abundance of soil nematodes, but only on two nematode ecological indices(λ and MI).     

中国小麦田土壤线虫对生物炭添加的响应

While studies have focused on the use of biochar as soil amendment, little attention has been paid to its effect on soil fauna. The biochar was produced from slow pyrolysis of wheat straw in the present study. Four treatments, no addition (CK) and three rates of biochar addition at 2 400 (B1), 12 000 (B5) and 48 000 kg ha-1 (B20), were investigated to assess the effect of biochar addition to soil on nematode abundance and diversity in a microcosm trial in China. The B5 and B20 application significantly increased the total organic carbon and the C/N ratio. No significant difference in total nematode abundance was found among the treatments. The biochar addition to the soil significantly increased the abundance of fungivores, and decreased that of plant parasites. The diversity of soil nematodes was significantly increased by B1 compared to CK. Nematode trophic groups were more effectively indicative to biochar addition than total abundance.     

传统耕作和免耕的红壤生态系统土壤动物种群的分异

In a field experiment ,the popultions of major soil fauna groups including earthworms,enchytraeids,arthropods and nematodes were examined in conventional tillage(CT) and no-tillage(NT) red soil ecosystems to evaluate their responses to tillage disturbance.Earthworms,macro- and micro-arthropods were stimulated under NT with earthworms showing the highest population increase by four times ,while enchytraeids and nematodes favored CT system predicting certain adaptability of these animals to plow-disturbed soil envi-ronment ,On the basis of relative response index it was found that soil fauna was more sensitive to tillage than soil resource base(C and N pools) and microflora.The population structure of soil fauna was also affected by tillage treatments.Analysis on nematode trophic groups showed that bacteria-feeding and plant parasitic nematodes were more abundant in CT soil whereas the proportions of fungivores and onmivore-predators increased in NT soil.Possible reasons for the differentiaion in both size and structure of the fauna populaion were discussed and the ecological significance involved in these changes was emphasized.     

线虫区系对科尔沁沙地草地退化的响应

The responses of soil nematode communities to grassland degradation were studied under undegraded grassland （UG）, degraded grassland （DG）, and improved grassland （IG）, in Horqin Sandy Land, Inner Mongolia, Northeast China. Soil samples were collected at depths of 0-10, 10-20, and 20-30 cm. Total organic carbon （TOC） and total nitrogen （TN） exhibited positive effects on the total number of nematodes and trophic groups. Significant treatment effects were found in the total number of nematodes, plant parasites, and omnivores-predators. Measures taken in the improved grassland could improve the number of omnivorepredators, especially in the deeper soil layers. Nematode richness was lower in the DG treatment than in the IG and UG treatments. The food web structure index （SI） was significantly higher in the UG and IG treatments than in the DG treatment. A higher SI suggested a food web with more trophic linkages and relatively healthy ecosystems.     

施用无机肥对农田生态系统线虫群落的扰动

Nematode communities were monitored in a field study at depths of 0-10cm and 10-20cm throughout a corn (Zea mays L.) growing season in the balck soil region of Northeast China.Plots were cropped corn with (IF) and without (NF) nitrogen fertilization.Fifteen families and 16 genera were observed in the nematode suspensions.Cephalobidae,Rhabditidae,Aphelenchus,Filenchus,and Helicotylenchus were found to be dominant genera/families in both plots at both depths.Significant differences were found between treatments and corn growing stages in the total numbers of nematodes during the study period.The total numbers of nematodes at the 0-10cm depth were higher in the inorganic fertilizer plot than in the control plot (no fertilizer applications) across jointing,filling,and mature stages.Bacterivores were the most abundant trophic groups under two treatments and at both depths,and the relative abundance averaged 42.8%.Omnivores-predators at both depths were lower in the inorganic fertilizer plot than in the control plot during the study period,excluding corn jointing stage.Maturity index (MI) and plant parasite index (PPI) were used to detect the differences between the two treatments,MI and PPI were effective in distinguishing differences in nematode communities during corn growing season.The role of nematode communities as bioindicators of ecosystem disturbance due to fertilization in noted.     

Effect of organic amendment amount on soil nematode community structure and metabolic footprints in soybean phase of a soybean-maize rotation on Mollisols

It has been well documented that organic amendment affects soil nematode community structure. However, little is known about the effect of organic amendment amount on soil nematodes. To assess the effect of the amount of organic amendments on soil nematode community structure and metabolic activity, the community composition, abundance, and metabolic footprints of soil nematodes were determined in a long-term field experiment with various amounts of organic amendment in Northeast China. Fertilization treatments included an unfertilized control (CK), chemical fertilizer without manure amendment (OM₀), manure applied at 7.5 Mg ha^-1 plus chemical fertilizer (OM₁), and manure applied at 22.5 Mg ha^-1 plus chemical fertilizer (OM₂). A total of 46 nematode genera were found. Treatments with the largest amount of organic amendment had the smallest number of plant parasite genera (5), but a largest number of dominant genera (7). Soil nematodes, bacterivores, and fungivores were the most abundant in OM₂, followed by OM₁, and the lowest in OM₀ and CK. Organic amendment increased the enrichment index (EI), and the large amount of organic amendment increased the metabolic footprints of bacterivore (Baf) and fungivore (Fuf) and enrichment footprint (Ef). The relationships between Baf (or Fuf) and the increases in soil organic carbon (ΔSOC) and total nitrogen (ΔTN) were stronger than those of bacterivore (or fungivore) abundance with ΔSOC and ΔTN, except for the relationship between bacterivore abundance and ΔSOC. The EI and Ef were positively correlated with ΔSOC and ΔTN. These findings suggest that the amount of organic amendment affects soil nematode activity and function at entry levels in soil food web, and that metabolic footprints of soil nematodes may be better indicators than their abundances in assessing their relationships with soil nutrients.     

棕壤线虫对尿素配施尿酶抑制剂和硝化抑制剂的响应研究

Effects of urea amended with urease and nitrification inhibitors on soil nematode communities were studied in a Hapli- Udic Argosol （Cambisol, FAO） in Liaoning Province of Northeast China. A completely random design with four treatments, i.e., conventional urea （CU）, slow-release urea amended with a liquid urease inhibitor （SRU1）, SRU1 ＋nitrification inhibitor dicyandiamide （SRU2）, and SRU1 ＋ nitrification inhibitor 3,5-dimethylpyrazole （SRU3） and four replicates were applied. Thirty-nine genera of nematodes were identified, with Cephalobus and Aphelenchus being dominant; and in all treatments, the dominant trophic group was bacterivores. In addition, during the growth period of spring wheat （Triticum aestivum L.）, soil urease activity was lower in SRUs than in CU. The numbers of total nematodes and bacterivores at wheat heading and ripening stages, and omnivores-predators at ripening stage were higher in SUR3 than in CU, SRU1 and SRU2 （P 〈 0.05）.     

川中丘陵区人工刨地耕作方式下紫色土坡耕地侵蚀速率的137Cs和210Pbex双核素示踪法研究

Purple soils are widely distributed in the Sichuan Hilly Basin and are highly susceptible to erosion, especially on the cultivated slopes. Quantitative assessment of the erosion rates is, however, difficult due to small size of the plots of the manually-tilled land, the complex land use, and steep hillslopes. 137Cs and 210Pbex (excess 210Pb) tracing techniques were used to investigate the spatial pattern of soil erosion rates associated with slope-land under hoe tillage in Neijiang of the Sichuan Hilly Basin. The 137Cs and 210Pbex inventories at the top of the cultivated slope were extremely low, and the highest inventories were found at the bottom of the cultivated slope. By combining the erosion rates estimates provided by both 137Cs and 210Pbex measurements, the weighted mean net soil loss from the study slope was estimated to be 3100 t km-2 year-1, which was significantly less than 6930 t km-2 year-1 reported for runoff plots on a 10°cultivated slope at the Suining Station of soil Erosion. The spatial pattern of soil erosion rates on the steep agricultural land showed that hoe tillage played an important role in soil redistribution along the slope. Also, traditional farming practices had a significant role in reducing soil loss, leading to a lower net erosion rate for the field.     

Recovery of soil nematode populations from cropping stress by natural secondary succession to meadow land

The spectrum and densities of soil nematode species were studied in an extensively managed sub-thermophilous meadow and in conventionally managed and abandoned fallow fields left to natural succession. In the meadow, 115 species and 71 genera of soil nematodes were found and the total mean nematode abundance was 1019×10³ individuals/m². The dominant feeding groups were root-fungal feeders (31%, mainly Filenchus), bacterivores (26%; variety of genera, mainly Panagrolaimus, Rhabditis, Acrobeloides, Bursilla, Plectus, Anaplectus, and Eucephalobus), and fungivores (16%, Aphelenchoides). The cultivated field had 66 species and 41 genera of nematodes and a mean nematode abundance of 546×10³ individuals/m². The eudominant trophic group was bacterivores (53%; mainly Panagrolaimus and Acrobeloides) accompanied by fungivores (28%, Aphelenchoides). During 2 years of natural succession in an abandoned field, the total mean nematode abundance rose to 938×10³ individuals/m², and the number of species and genera increased to 73 and 46, respectively. Omnivores (25%, Aporcelaimellus and Eudorylaimus), fungivores (24%, Aphelenchus) and bacterivores (21%, Eucephalobus and Panagrolaimus) became the leading trophic groups, and the values of the Shannon Index of diversity and the Maturity Index increased. The development of soil nematode populations in the early successional stages of abandoned cambisol fields in Central Europe is discussed.     

Vertical distribution of soil nematodes under different land use types in an aquic brown soil

A field investigation was conducted at the Shenyang Experimental Station of Ecology to study the vertical distribution of nematode communities down to a depth of 150 cm under four land use types (paddy field, maize field, fallow field and woodland) in an aquic brown soil of Northeast China. The results showed that the numbers of total nematodes and trophic groups exhibited a gradual decrease trend with depth under different land use types. The numbers of total nematodes, bacterivores, fungivores, and plant parasites were positively correlated with the contents of TOC, total N, and alkali N in the four land use types. The majority of nematodes were present in the 0–30 cm soil layers. No significant effects were found on the number of total nematodes at all depths among the maize field, fallow field and woodland. Bacterivores were found to be the most abundant group in the paddy field, while plant parasites were observed to be the most abundant group in the maize field, fallow field and woodland. The number of fungivores at the depths of 0–5 and 5–10 cm was higher in the maize field than in the other land use types. Omnivores-predators were found in relatively low numbers under each land use type, with a higher presence in the fallow field and woodland at the depths of 0–5, 5–10, 10–20 cm compared with the paddy and maize fields. 54 genera were observed throughout the four land use types in our study. The woodland treatment supporting greater basal resource inputs tended to result in a higher diversity of nematodes. The number of genera reached a maximum at the depth of 5–10 cm under each land use type. The faunal profiles showed that soil food webs in the fallow field and woodland were structured, and those in the paddy and maize fields were stressed. The faunal analysis provided a useful tool for diagnostic interpretation of the condition of upper soil layers.     

科尔沁沙地流动沙丘土壤线虫群落组成与多样性研究

本文对科尔沁沙地流动沙丘不同坡位(丘间地、过渡带、迎风坡中部、坡顶、背风坡上部和下部)和不同土层深度(0 ～ 20、20 ～ 40和40 ～ 60 cm)的土壤线虫群落组成与多样性进行了比较研究.研究结果表明,流动沙丘土壤线虫具有显著的坡位效应,而垂直分布特征不显著.丘间地和背风坡下部具有较高数量和较多种类的土壤线虫,而过渡带和迎风坡中部土壤线虫数量较低、种类也较少.不同坡位土壤线虫总数、食细菌线虫、食真菌线虫和植物寄生线虫数量存在显著差异.除食细菌线虫外,不同土层土壤线虫总数及其各营养类群均无显著差异.土壤含水量和电导率是影响土壤线虫群落空间分布格局的主要因素.土壤线虫群落分布格局的变化反映了流动沙丘土壤微环境的变化,对土壤质量具有一定的指示作用.     

Effect of compost and chemical fertilizer on soil nematode community in a Chinese maize field

Nematode density and biodiversity in maize field soil treated with compost, chemical fertilizer and with no amendments were investigated in a multi-year field experiment at the Qu-Zhou experimental station, China Agricultural University. The soils were collected from the upper (0–20 cm) soil layer during the maize growing stages in 2004. The results demonstrated that significant differences for the total nematode density, bacterivores, fungivores, plant parasites and omnivores-predators density were found between treatments and between dates. The total nematode density and bacterivores density were greater in compost-treated soil than in chemical fertilizer-treated soil, and were greater in chemical fertilizer-treated soil than in control soil during all sampling periods. The total nematodes density ranged from 106 to 657 individuals per 100 g dry soil in the present study. Total 40 nematode genera were found in all treatments and sampling periods, and 12 genera were bacterivores, 4 genera were fungivores, 16 genera were plant parasites and 8 genera were omnivores-predators. Cephalobus, Rhabditis, Tylenchorhynchus, Pratylenchus, Helicotylenchus and Rotylenchus were dominant genera in present study. The plant parasites and bacterivores were dominant trophic groups. The ratio of bacterivores plus fungivores to plant parasites was higher in compost-treated soil compared to chemical fertilizer-treated soil except October. Maturity index and combined maturity index were lower in compost-treated soil compared to chemical fertilizer-treated and control soil except July. The plant parasite index was higher in compost-treated soil compared to chemical fertilizer-treated soil except July. The multi-year application of compost and chemical fertilizer had effected on soil nematode population density and community structure.     

Effects of organic,low input,conventional management practices on soil nematode community under greenhouse conditions

A comparative study of organic, low input, conventional vegetable greenhouse systems was conducted to assess the effect of management practices on the soil nematode community. Bacterivores were the most dominant trophic group in all three systems with a mean proportion of over 80%, followed by omnivore-carnivores. In general, organic management practices increased the abundance of total nematodes, bacterivores, fungivores, and omnivore-carnivores in comparison with low input and conventional management practices. Though inhibitory effects of plant feeders were found in organic and low input systems, these effects were more evident in organic systems. However, small differences were observed in the composition of trophic groups and fauna analysis. All three systems displayed enriched soil conditions and structured food webs. We inferred that the bottom-up effect resulting from organic input in the soil food web may play a more important role than the disruption effects under our high input greenhouse conditions. The Shannon index (H′) and genus dominance (λ) suggested that in greenhouse conditions, excessive manure input would cause a decrease in nematode diversity but increase the dominance, particularly for enrichment opportunists. We concluded that management practices under greenhouse conditions were more influential on nematode biomass (including trophic groups) than community structure.     

Effect of irrigation on nematode population dynamics and activity in desert soils

Summary The nematode community in litter and soil was examined for a year in the Chihuahuan desert, before and after supplemental rainfall application. Proportions of nematode-active or anhydrobiotic forms and population densities were determined for 3 treatments: control (natural rainfall), a single, large (25-mm) monthly irrigation pulse, and 4 smaller (6-mm) irrigations spaced at weekly intervals. In litter the greatest nematode abundance was in the 6 mm week^–1 treatment (48 nematodes 20 g^–1 litter). Bacteriovores and fungivores accounted for approximately 95% of the numbers and biomass in all treatments. In soil, water amendments had no significant effect (P < 0.05) on annual mean densities of total nematodes, fungivores, bacterivores, or omnivore predators. Phytophage densities were greater on both irrigation treatments, with highest densities (9268 m^–2) in the 6 mm week^–1 soils, which was 5.9% of the total soil nematode density. Total densities of individual trophic groups were not significantly different before or after rainfall. Soil nematode densities fluctuated independently with trophic group, month, and season. Bacterial feeders and omnivore predators were the largest contributor to total soil nematode density and biomass. Prior to irrigation, there were no differences in the percentage of anhydrobiotes on the three treatments. Anhydrobiotes decreased after irrigation in all treatments, and were significantly lower in soils of the larger, monthly irrigation. Nematodes were inactive (anhydrobiotic) and decoupled from decomposition processes when soil water matric potentials reached –0.4 MPa.Dedicated to the late Prof. Dr. M.S. Ghilarov     

Cattle grazing increases microbial biomass and alters soil nematode communities in subtropical pastures

This study focused on examining the impacts of cattle grazing on belowground communities and soil processes in humid grasslands. Multiple components in the soil communities were examined in heavily grazed and ungrazed areas of unimproved and improved bahiagrass (Paspalum notatum Flugge) pastures in south-central Florida. By using small (1-m×1-m) sampling plots, we were able to detect critical differences in nematode communities, microbial biomass, and mineralized C and N, resulting from the patchy grazing pattern of cattle. Soil samples were collected on three occasions between June 2002 and June 2003. Microbial C and N were greater (P?0.01) in grazed than in ungrazed plots on all sampling dates. Effects of grazing varied among nematode genera. Most genera of colonizer bacterivores were decreased (P?0.10) by grazing, but more persistent bacterivores such as Euteratocephalus and Prismatolaimus were increased, as were omnivores and predators. Higher numbers of persisters indicated that grazing resulted in a more structured nematode community. Some herbivores, particularly Criconematidae, were decreased by grazing. Abundance of omnivores, predators, and especially fungivores were strongly associated with C mineralization potential. Strong correlation of microbial C and N with nematode canonical variables composed of five trophic groups illustrates important links between nematode community structure and soil microbial resources. Including the analysis of nematode trophic groups with soil microbial responses reveals detection of grazing impact deeper into the hierarchy of the decomposition process in soil, and illustrates the complexity of responses to grazing in the soil foodweb. Although highly sensitive to grazing impacts, small-scale sampling could not be used to generalize the overall impact of cattle grazing in large-scale pastures, which might be determined by the intensity and grazing patterns of various stocking densities at the whole pasture level.     

设施菜地长期施肥对土壤线虫群落结构和多样性的影响

基于设施菜田肥料定位试验地,研究了长期施用化肥对土壤线虫群落结构及多样性的影响,为设施蔬菜的合理施肥和可持续生产提供理论依据。研究期间,共鉴定土壤线虫38个属,其中假海矛属(Pseudhalenchus)、短体属(Pratylenchus)和真滑刃属(Aphelenchus)为优势属。长期施用化肥显著增加各研究土层的线虫总数,并改变线虫的群落结构。长期施化肥对0～10 cm土层线虫各生态指数的影响不显著。在10～20 cm和20～40 cm土层,长期施用化肥显著提高食真菌与食细菌线虫比例(F/B)而降低线虫通路比值(NCR),表明其促进以食真菌为主的腐屑食物网分解通道;其显著提高优势度指数(λ)而降低香农指数(H)'、均匀度指数(J)和丰富度指数(SR),表明长期施用化肥导致土壤线虫多样性降低。土壤线虫可以作为评价施肥对土壤质量影响的生物指标。     

长期施用有机肥对红壤旱地土壤线虫群落的影响

基于红壤旱地(玉米)的长期施肥试验,研究长期施用有机肥对土壤线虫分布特征及群落结构的影响。田间试验处理包括:CK(对照)、ON1(低量有机肥)、ON2(高量有机肥)和ON2L(高量改良有机肥)。结果表明,施肥8a后,红壤旱地中共鉴定出15科、29属土壤线虫,包括8属植物寄生线虫、9属食细菌线虫、3属食真菌性线虫和9属捕食杂食性线虫,短体属(Pratylenchus)、小杆属(Rhabditis)和原杆属(Pro-torhabditis)为优势属。不同施肥处理中,土壤线虫总数的大小顺序为ON2>ON1>ON2L>CK。线虫群落生态指数对于施用有机肥有不同的响应:除SI外,其他虫群落生态指数均有显著差异,通过线虫群落结构的变化很好地反映了土壤的肥力变化状况,土壤线虫可以作为施有机肥过程中指示土壤健康质量的一个重要的生物学指标。