Effects of long-term barley monoculture on plant-affecting soil microbiota

Effects of soil microbiota on shoot and root growth of barley were tested in a greenhouse tube-growing system. Tubes were filled with a mixture of pure sand and various percentages of soils sampled from plots in three long-term field experiments measuring effects of various crop rotations on yield. Using 3% soil in the sand-soil mixture, shoot dry weight of barley test plants was reduced by about 35% and root depth by about 40% in soils from monoculture plots as compared to soils from crop-rotation plots. Typical root symptoms on poorly growing barley plants started as distinct dark-brown zones which then rapidly spread over the whole root system until the root tips ceased to grow. As tested in one experiment, the barley monoculture soil also affected wheat and oats, but to a lesser degree than it did barley. Most of the depressing effects of monoculture soil on barley were eliminated when soil samples were treated with metalaxyl or heated to 65°C for 2 hours. A Pythium sp. frequently isolated from barley roots showing typical symptoms affected barley, wheat and oats in the same way as did barley monoculture soil.     

耕作深度对蔗地土壤物理性状及甘蔗产量的影响

探讨蔗地机械化耕作深度对耕层土壤物理性状及甘蔗产量构成因子的影响,阐明深松作业的针对性土壤区位和障碍因子,可为甘蔗良好耕层的构建和土壤改良策略的制定提供科学依据.本研究设置3种深松作业深度(35、40和45 cm),以不深松为对照,对蔗地土壤物理性状(紧实度、容重、含水率、孔隙度、三相容积率)和甘蔗产量构成因素及蔗茎产量等指标进行研究.结果表明: 耕作作业深度与蔗地土壤结构特性及甘蔗产量的改善提升效应呈显著正相关.深松能够打破犁底层,显著降低土壤紧实度和容重,减小机械作业相应的贯入阻力和抗剪强度,尤其对20～30 cm土层的上述因子具有显著改善效应,对甘蔗高产意义重大.深松显著提高了30 cm以内土层的液相容积率,增大了土壤水分库容,使10～30 cm土层的水分指标显著改善.10～30 cm土层是深松对耕层土壤固相容积率改善效应最显著的区位.耕作深度的增加对甘蔗有效茎数、株高、蔗茎产量及蔗糖含量具有显著的促进效应.鉴于蔗区当前较普遍的机具装备水平,我国适宜蔗区实施机械化深松的作业深度标准应不小于40 cm.     

不同质地土壤对花生根系生长、分布和产量的影响

为了探究土壤类型与花生(Arachis hypogaea)根系生长及产量之间的关系, 采用箱栽的方法, 研究了不同质地土壤(砂土、壤土、黏土)对花生根系生长、分布和产量的影响。砂土和壤土中花生根系干物质重各时期均显著高于黏土中, 但生育后期黏土中花生根系干物质重比壤土和砂土下降相对较慢。从不同类型土壤质地根系分布及根系活力来看, 黏土根系主要分布在上层土壤, 但上层土壤根系活力后期下降慢; 砂土有利于花生根系向深层土壤生长, 但上层土壤根系活力后期下降快; 而壤土对花生根系生长和活力时空分布的影响介于黏土和砂土之间。砂土有利于花生荚果的膨大, 且花生荚果干物质积累早而快, 但后期荚果干物质重积累少; 壤土的花生荚果干物质积累中后期多, 黏土则在整个生育期均不利于花生荚果干物质积累。最终荚果产量、籽仁产量和有效果数均表现为壤土最大、砂土次之、黏土最小。研究表明通气性和保肥保水能力居中的壤土更适合花生的根系生长发育及产量的形成。     

保护地蔗田对土壤优先流与根系生物量及产量品质的影响

为探明保护性耕作对蔗田土壤及甘蔗生长的影响,该研究设置2种耕作方式(常规耕作、粉垄耕作)与2种施肥水平(减量施肥20%、常规施肥),并于甘蔗苗期后在甘蔗行间近根部覆盖豆科秸秆,以第二年宿根蔗为研究对象,采用染色示踪法测定秸秆覆盖下蔗田土壤优先流特征,同时测定分析甘蔗株高、茎围、地下根系生物量、产量及品质等重要农艺性状。结果表明:(1)粉垄耕作方式下蔗田土壤优先流发生速度快且活跃,添加秸秆覆盖降低了土壤优先流发生程度,增加了土壤水分在10～25 cm土层的横向运移能力,在一定程度上提高了土壤蓄水能力。(2)粉垄保护性耕作在秸秆覆盖下提高了甘蔗根系生物量和产量,秸秆覆盖下粉垄免耕宿根蔗根系生物量提高了8.97%～25.54%,并且减量施肥处理中秸秆覆盖宿根蔗伸长期地下根系生物量显著高于无秸秆覆盖,秸秆覆盖下甘蔗株高提高了4.2%～13.1%; 在减量施肥处理中,粉垄耕作添加秸秆覆盖甘蔗产量提高了16.27%,并且添加秸秆覆盖较常规施肥中无秸秆覆盖,产量提高了5.95%。(3)粉垄保护性耕作利于提高甘蔗品质,对比无秸秆覆盖处理,粉垄耕作下秸秆覆盖后显著提高了甘蔗蔗汁视纯度,并且宿根蔗纤维分、蔗汁锤度、转光度和蔗糖分均有提升。综上认为,免耕秸秆覆盖可作为粉垄红壤坡耕地蔗田保护性生产调控方式。     

Role of plant parasitic nematodes and abiotic soil factors in growth heterogeneity of sugarcane on a sandy soil in South Africa

A feature of many sugarcane fields is the patchy growth. This is often thought to be due to physical or chemical differences in the soil. In this paper we investigate the causes of growth heterogeneity of sugarcane on a sandy soil in KwaZulu-Natal, South Africa. To identify the factors that were associated with the good and poor areas, soil texture, pH, organic matter content and a number of soil chemical elements and nematode community data were subjected to principal component analysis (PCA). The numbers of each of the nematode species (Meloidogyne sp., Pratylenchus zeae, Helicotylenchus dihystera, Xiphinema elongatum and Paratrichodorus sp.) were first converted to relative proportions of ectoparasites and endoparasites. The data were collected from the 2nd ratoon crop of a nematicide trial, where half of the plots had been treated with aldicarb in the preceding two crops. Yields of control plots varied from 34.7 to 126.8 t cane ha^–1 and from 85.4 to 138.7 for the treated plots. The yield data were centred and normalised separately for the treated and control plots and the values projected on the trial map to study spatial distribution. Plots with above-average yields, whether treated or untreated, occurred in the lower part of the trial site. The PCA factorial values were also projected onto the map of the trial. According to the first factor of the analysis of the abiotic soil characteristics in the 0–20 cm surface layer, the trial site could be divided into two areas, one on the left and one on the right. PCA of the soil data from the 0–20 and 20–40 cm layers showed that there was little or no difference between the two that might explain the two growth areas. However, analysis of the nematode community distinguished two main areas that largely corresponded to the distribution of the plots of low and high yielding cane. Correlation analysis confirmed the relationship between nematodes and yield. H. dihystera was positively correlated with yield of cane whereas the reverse was true for the Meloidogyne species.     

Response of shoot growth and transpiration to soil drying in sugarcane

The relationship between plant-available water (PAW) and shoot extension and transpiration is required to model crop response to water stress, and has not been previously defined for sugarcane (Saccharum spp. (L.)). We subjected sugarcane plants at the 5–6 leaf stage to a continuous drying cycle in large (42 L) pots to determine the threshold fraction of plant available water (PAW_t) at which plants slowed shoot extension and transpiration relative to plants watered daily. Transpiration rate was measured as the daily mass loss from the pots and shoot extension as the height increase from ground level to the tip of the youngest actively expanding leaf. Three experiments were conducted with cultivar Q115 covering a range of soil types (and hence PAW) and rates of soil drying. To compare the response with sugarcane, sorghum (Sorghum bicolor (L.) Moench s.lat.), a species that has been well characterized for the relationship between PAW and transpiration and shoot extension, was grown in two additional experiments. For the same species, response curves and PAW_t for either shoot extension or transpiration were very similar for the different experiments. This similarity occurred despite there being different soils, different environmental conditions, different PAW, different times taken for the pots to dry down, and hence different rates of stress development. In sugarcane, there was almost no threshold in PAW_t (0.92) for shoot extension and a very small threshold in PAW_t for transpiration (0.85), while in sorghum PAW_t for sorghum shoot extension (0.54) and plant transpiration (0.47) were consistent with those published previously. The present data extend previous reports that sugarcane stalk extension is very sensitive to water stress, and we discuss several factors that could provide the physiological basis for the sensitivity. This revised version was published online in June 2006 with corrections to the Cover Date.     

Reduced growth of autumn-sown wheat in a low-P soil is associated with high colonisation by arbuscular mycorrhizal fungi

Autumn-sown wheat (Triticum aestivum) was studied over two seasons in south-eastern Australia, on a low-P soil where indigenous arbuscular mycorrhizal fungi (AMF) were known to provide little nutritional benefit to crops. It was hypothesised that AMF would be parasitic under these circumstances. Shoot dry mass and water soluble carbohydrate (WSC) reserves in roots and shoots were measured for wheat grown with or without P-fertiliser, in plots where crop sequences had produced either high or low colonisation by AMF. Application of P-fertiliser greatly increased crop growth and decreased colonisation by AMF. At tillering, colonisation by AMF ranged from 24 to 66% of root length when no P was applied and from 11 to 32% when P was applied. At each P-level, high colonisation correlated with reductions of around 20% in stem and root WSC concentrations (first season) or shoot WSC content and shoot dry mass (much drier second season). Impacts on yield were not significant (first season) or largely masked by water-stress and frost (second season). While the major fungal root diseases of the region were absent, interactions between crop sequence and other unknown biotic constraints could not be discounted. The results are consistent with the parasitic impacts of colonisation by AMF being induced primarily through the winter conditions experienced by the crops until anthesis. It is concluded that wheat in south-eastern Australia may benefit from reduced colonisation by AMF, which could achieved through selected crop sequences or, perhaps, targeted wheat breeding programs.     

土壤微食物网生物和土壤微生物对小星穗薹草生长和土壤养分的影响差异

土壤微食物网生物是影响土壤养分循环的重要驱动因素,其对植物生长和土壤养分的影响大于广受关注的土壤微生物。通过土壤生物添加实验,对比分析了在土壤微食物网生物添加、土壤微生物添加和灭菌土壤三种处理条件下,湿生草本植物小星穗薹草的生物量、形态和生理性状以及土壤养分含量等指标,以探究土壤微食物网生物和土壤微生物对植物生长和土壤养分的差异性影响。结果表明,土壤微食物网生物对植物的促进作用显著大于土壤微生物的作用。土壤微食物网生物未改变植物的根系性状,而土壤微生物使植物的根系形态发生明显改变。不同土壤生物添加处理的土壤有效养分含量也存在显著差异。该研究证明了土壤微食物网生物更有利于植物生长。研究结果为深入认识土壤微食物网生物对植物生长和土壤养分周转的重要性、推动植物与土壤生物相互作用过程和影响机制研究提供了新视角和可靠数据。     

有机肥对粉垄蔗地土壤养分及甘蔗产量品质的影响

为了研究施用有机肥对粉垄条件下甘蔗产量和品质的影响,该研究以蚯蚓粪、猪粪分别与复合肥配施于粉垄蔗地中,并以单施复合肥作为对照,研究有机肥与复合肥配施对粉垄土壤理化性状及甘蔗养分、产量、蔗茎品质的影响.结果表明:(1)与对照相比,有机肥与复合肥混施可在不同时期分别提高粉垄土壤有机质、全氮、全磷、碱解氮、速效磷、速效钾含量...     

轮作与休闲对日光温室黄瓜连作土壤微生物和酶活性的影响

采用盆栽试验,研究了不同作物轮作和休闲方式对日光温室黄瓜连作土壤微生物数量、酶活性及后茬黄瓜生长和产量的影响.结果表明： 与连作相比,轮作有利于改善土壤微生物结构,增加细菌和放线菌数量,减少真菌数量;轮作与休闲有利于提高土壤转化酶、脲酶、过氧化氢酶和多酚氧化酶活性.在不同作物轮作和休闲方式下,后茬黄瓜结果期的细菌、放线菌数量和土壤转化酶活性均呈先升后降趋势,在盛瓜期达到最大值;真菌数量随生育期延长而增加;脲酶、过氧化氢酶和多酚氧化酶活性则随生育期延长而降低,在初瓜期最高.不同栽培模式下,以大葱-黄瓜轮作和糯玉米-黄瓜轮作的效果更佳,明显改善了后茬黄瓜的生长,提高了产量.     

稻麦轮作体系下有机肥施用对作物产量和土壤性质影响的整合分析

为明确稻麦轮作系统有机肥施用对作物产量和土壤性质的影响,本研究搜集已公开发表的文献数据,利用meta分析法定量分析了有机肥类型(普通有机肥、生物质炭、秸秆)、施用策略(单施有机肥、有机肥配施部分化肥、有机肥配施全量化肥)、施用年限(短期、中期、长期)对稻麦产量和土壤性质的影响及其对不同土壤条件(酸性、中性、碱性)的响应。结果表明: 与单施化肥相比,有机肥施用对水稻和小麦的增产效应相近,分别为3.1%和3.0%。有机肥施用对土壤性质的提升效果更明显,显著降低了土壤容重(5.7%),显著提高了土壤有机质、全氮、全磷、碱解氮、速效磷和速效钾含量,以及微生物生物量碳、氮,增幅在11.7%～38.4%。不同类型有机肥中,生物质炭和普通有机肥对土壤性质的改良效果优于秸秆;与单施有机肥相比,有机肥配施化肥的作物增产效果更好,而土壤性质改良效果较差;随着有机肥施用年限增加,作物增产和土壤肥力提升效应逐渐增强;在酸性土壤条件下有机肥施用对作物的增产效果最显著。土壤容重与稻麦周年产量呈显著负相关,而土壤全氮、速效磷、速效钾含量和微生物生物量氮与稻麦周年产量呈显著正相关关系。     

保护性耕作对麦药轮作土壤酶活性和微生物数量的影响

以传统耕作(T)为对照,研究了免耕(NT)和免耕+秸秆覆盖(NTS)保护性耕作对麦药轮作后土壤脲酶、碱性磷酸酶、蔗糖酶和过氧化氢酶活性与细菌、真菌和放线菌数量的影响。试验结果表明:麦药轮作后,从T、NT至NTS,0-5cm、5-10cm和10-30cm同层土壤各种酶活性均逐渐增强,以NTS处理效果最好。表层土壤水解酶活性变化最明显,NTS较T菘蓝土壤表层脲酶、碱性磷酸酶和蔗糖酶活性分别提高38.53%、39.65%和110.00%,小麦土壤分别提高28.10%、19.71%和75.00%,均对蔗糖酶活性影响最大;过氧化氢酶均为深层土壤变化最明显,菘蓝和小麦土壤分别提高9.09%和18.91%。麦药轮作后菘蓝T、NT至NTS同层土壤各种微生物数量和总数逐渐升高,NTS处理效果最好,而小麦土壤表层和中层微生物数量逐渐增加,NTS处理效果最好,但深层土壤细菌、真菌数量和微生物总数呈T低,NT升高,NTS又降低的趋势,土壤放线菌数量则逐渐升高。菘蓝0-5cm土壤细菌、真菌、放线菌数量和微生物总数NTS较T分别提高22.81%、55.56%、67.14%和22.81%,小麦土壤分别提高62.84%、92.86%、14.29%和66.67%。麦药轮作后菘蓝不同耕作处理土壤细菌数量和微生物总数较小麦土壤减少了10倍左右。     

轮牧时间对荒漠草原土壤种子库特性的影响

探讨季节性放牧下土壤种子库的特性对荒漠草原合理利用具有重要作用。以宁夏荒漠草原为对象,通过封育(FY)、传统时间轮牧(FG)、延迟开始轮牧(YG)、提前结束轮牧(TG)、延迟开始并提前结束轮牧(YT)和自由放牧(ZY)处理,研究了0～5、5～10、10～15 cm土层土壤种子库物种组成、种子库密度、垂直分布、多样性及其与地上植被的关系,探讨了种子库与土壤环境因子的关系。结果表明: 研究区土壤种子库物种组成共有9个科21个种。土壤种子库物种组成以TG种子库种类最多,达13种,而FY和ZY土壤种子库种类最少,各8种。ZY土壤种子库密度显著高于FY、YG、TG、YT;FY的土壤种子库中多年生植物种子数量最多,达32.0%;ZY种子库中多年生植物种子数最少,仅为12.4%,主要以有性繁殖的一年生杂类草种子为主;土壤种子库主要集中于0～5 cm表层土壤,随着土层深度的增加,土壤种子库大小降低。土壤种子库的优势度和多样性均以FY最高,优势度、多样性和均匀度均以ZY最低。土壤种子库与地上植被的相似性总体较低,相比之下FG及ZY种子库与地上植被相似性较高,FY最低。土壤水分、有机质、全氮、全磷、土壤容重是影响土壤种子库的主要土壤因子。与传统全年自由放牧相比,季节性四区轮牧能使荒漠草原土壤种子库多年生植物种类、密度以及种子库物种丰富度、多样性和均匀度增加,虽作用不及长期封育草地,但对荒漠草原的利用与保护具有重要意义。     

The combination of biochar and PGPBs stimulates the differentiation in rhizosphere soil microbiome and metabolites to suppress soil-borne pathogens under consecutive monoculture regimes

The application of biochar and plant-growth-promoting bacteria (PGPBs) in biocontrol soil-borne pathogens has garnered worldwide interest recently. However, how agricultural replanting disease is alleviated by a combination of biochar and PGPBs treatment (SYBB) remains largely unexplored. In this study, we investigated the beneficial effects of single biochar addition and the combination of biochar and PGPBs on alleviating replanting disease by altering the rhizosphere microbiome and metabolites. Our field experiment showed that the SYBB treatment had a better alleviating effect on replanting disease than the single biochar addition. The study indicated the dominant effect of deterministic processes on the bacterial community and of stochastic processes on the fungal community under biochar and PGPBs treatment. The combination of biochar and PGPBs tended to convert the stochastic processes of fungal community assembly into deterministic processes. We found SYBB treatment increased the abundance of potentially beneficial Pseudomonas, Lysobacter, Gemmatimonadetes and Nitrospira, and decreasing the abundance of potentially pathogenic Fusarium, Talaromyces and Fusarium oxysporum. Moreover, the SYBB treatment increased the abundances of carbohydrates, fatty acids and plant hormones, and decreased the abundances of amino acids in the rhizosphere soil. Co-occurrence network analysis indicated that SYBB treatment increased the connections within the microbial communities and drove the alteration of co-occurrence network among the microbial communities and metabolites, which increased positive correlations in bacteria-metabolite networks and decreased positive correlations in fungi-metabolite networks. Spearman correlation analysis showed the abundances of beneficial Streptomyces, Pseudomonas and Lysobacter were significantly and positively correlated to the metabolites most increased under SYBB treatment. The combination of biochar and PGPBs alleviated replanting disease by mediating the change of rhizosphere soil metabolites, and stimulating the proliferation of indigenous and beneficial soil microbes. The research results are intended to provide the basis for new strategies for green and sustainable remediation of soil-borne pathogens.     

Effects of soil structural discontinuity on root and shoot growth and water use of maize

The role of roots penetrating various undisturbed soil horizons beneath loose layer in water use and shoot growth of maize was evaluated in greenhouse experiment. 18 undisturbed soil columns 20 cm in diameter and 20 cm in height were taken from the depths 30–50 cm and 50–70 cm from a Brown Lowland soil, a Pseudogley and a Brown Andosol (3 columns from each depth and soil). Initial resistance to penetration in undisturbed soil horizons varied from 2.5 to 8.9 MPa while that in the loose layer was 0.01 MPa. The undisturbed horizons had a major effect on vertical arrangement of roots. Root length density in loose layer varied from 96 to 126 km m^-3 while in adjacent stronger top layers of undisturbed horizons from 1.6 to 20.0 km m^-3 with higher values in upper horizons of each soil. For specific root length, the corresponding ranges were 79.4–107.7 m g^-1 (on dry basis) and 38.2–63.7 m g^-1, respectively. Ratios of root dry weight per unit volume of soil between loose and adjacent undisturbed layers were much lower than those of root length density indicating that roots in undisturbed horizons were produced with considerably higher partition of assimilates. Root size in undisturbed horizons relative to total roots was from 1.1 to 38.1% while water use from the horizons was from 54.1 to 74.0%. Total water use and shoot growth were positively correlated with root length in undisturbed soil horizons. There was no correlation between shoot growth and water use from the loose layers.     

土壤灭菌-生物有机肥联用对连作马铃薯及土壤真菌群落结构的影响

甘肃省中部沿黄灌区是全国重要的加工型马铃薯生产基地,然而因集约化生产带来的连作障碍问题已经严重影响到当地马铃薯种植业的健康发展。结合田间试验和相关的室内分析,从马铃薯块茎产量和品质、植株生理特征和土壤真菌群落结构等角度,初步评估土壤灭菌和生物有机肥联用(Ammonia Disinfection plus Bio-organic Fertilizer Regulation,ABR)对马铃薯连作障碍的防控效果。同对照相比,ABR处理的块茎产量和商品薯率分别显著增加约71.1%—152.1%和39.2%—53.3%,但块茎化学品质变化不大。ABR处理叶绿素含量和根系活力较CK均显著增加,而叶片和根系丙二醛含量显著下降。PCR-DGGE分析发现,ABR处理显著影响了马铃薯连作土壤的真菌群落结构,表现为真菌群落的多样性指数较CK相比显著下降。ABR处理还有效抑制了土传病害的滋生,植株发病率和收获后的病薯率较CK分别显著下降约67.2%—82.2%和69.1%—70.5%。采用Real-time PCR评估连作土壤中3种优势致病真菌的数量变化,显示ABR处理下立枯丝核菌、茄病镰刀菌和接骨木镰刀菌的数量在生育期内较CK均有不同程度的下降。综合来看,土壤灭菌和生物有机肥联用技术在防控甘肃省中部沿黄灌区马铃薯连作障碍上具有较大的应用潜力,而对土传病害的抑制和微生物群落结构的改善是其主要的作用机理。     

渭北旱塬保护性耕作对冬小麦-春玉米轮作田蓄水保墒效果和产量的影响

通过2007—2010年田间定位试验,研究了平衡施肥、常规施肥和无肥(或低肥)条件下,免耕、深松和翻耕处理对渭北旱塬冬小麦-春玉米轮作田土壤贮水量、作物产量、水分利用效率(WUE)和纯收益的影响.结果表明:休闲期免耕处理蓄水保墒效果最好,深松次之,翻耕最差;轮作田生育期内免耕和深松处理0~200 cm平均土壤贮水量分别较翻耕提高6.7%和1.9%;各施肥条件下作物产量、WUE和纯收益均以深松处理最高,且以平衡施肥深松处理表现最好,2007—2008年冬小麦、2009年春玉米、2009—2010年冬小麦产量分别为6909、9689、5589 kg.hm-2,WUE分别为18.5、25.2、23.0 kg.hm-2.mm-1,纯收益分别为5034、5045、7098元.hm-2.因此,平衡施肥与深松组合处理的蓄水保墒和增产增收效果最好,是渭北旱塬冬小麦-春玉米轮作田较适合的施肥耕作模式.     

Effects of soil compaction and mechanical damage at harvest on growth and biomass production of short rotation coppice willow

The effects of soil compaction and mechanical damage to stools at harvesting on the growth and biomass production of short rotation coppice (SRC) of willow (Salix viminalis L.) were monitored on clay loam (CL) and sandy loam (SL) soils. Moderate compaction, more typical of current harvesting situations did not reduce biomass yields significantly. Even heavy compaction only reduced stem biomass production by about 12% overall; effects were statistically significant only in the first year of the experiment on sandy loam. Heavy compaction increased soil strength and bulk density down to 0.4 m depth and reduced soil available water and root growth locally. Soil loosening treatments designed to alleviate the effects of heavy compaction did not markedly improve the growth of willow on compacted plots. Hence the focus fell on harvesting. Extensive mechanical damage to stools caused a 9% and 21% reduction in stem dry mass on the clay loam and sandy loam soils as a result of fewer stems being produced. The particularly severe effect on the sandy loam soil probably resulted from a combination of dry conditions in the year of treatment, root damage and soil compaction under stools and might have been aggravated by the young age of the plants (1 year) at the time of treatment.     

不同作物轮作对连作高粱生长及其根际土壤环境的影响

以高粱连作5年为对照(CK),研究了高粱连作3年轮作苜蓿(T₁)和葱(T₂),对下茬高粱生长、根际土壤微生物及土壤酶活性的影响.结果表明:与CK相比,轮作改善了高粱地上部的生长;T₁增产16.5%,效果明显.轮作也促进了高粱根系的生长,T₁和T₂处理的高粱总根长是CK的1.3和1.4倍,根总表面积是CK的1.6和1.5倍,根体积是CK的2.2和1.6倍,根系生物量是CK的2.0和1.3倍,T₁促进了根系在10 cm以下土层中的分布.借助Biolog法对穗花期根际土壤微生物群落功能多样性分析表明,T₁和T₂处理根际土壤微生物活性显著高于CK,且Shannon多样性指数分别是CK的1.2和1.1倍;轮作提高了根际土壤蔗糖酶活性.综上,轮作苜蓿比轮作葱更能改善高粱根际土壤环境,提高土壤微生物活性和酶活性,控制高粱连作障碍,提高高粱产量.