Community composition of ammonia-oxidizing bacteria in the rhizosphere of intercropped wheat (<Emphasis Type="Italic">Triticum aestivum</Emphasis> L.), maize (<Emphasis Type="Italic">Zea mays</Emphasis> L.), and faba bean (<Emphasis Type="Italic">Vicia faba</Emphasis> L.)

Cereal/cereal and cereal/legume intercropping systems are popular in the north, northwest, and southwest of China and often result in yield increases compared to monocropping. Rhizosphere interactions may play a significant role in the yield increases, particularly with respect to nutrient availability. The aim of this study was to investigate the effects of intercropping on N availability and community composition of ammonia-oxidizing bacteria in the rhizosphere of wheat, maize, and faba bean at different growth stages. Denaturing gradient gel electrophoresis (DGGE) based on 16S rRNA genes was used to analyze the community composition of bacterial ammonia oxidizers belonging to β-proteobacteria. The results showed that intercropping with faba bean significantly increased nitrate concentrations in the rhizosphere of wheat and maize at the second sampling time (20 June) compared to monocropping or intercropping between maize and wheat. Intercropping significantly affected the community composition of ammonia-oxidizing bacteria in the rhizosphere compared to monocropping, and the effects were most pronounced in the maize/faba bean and wheat/maize intercropping systems when faba bean and wheat were at anthesis and maize was in seedling stage. In wheat/faba bean intercropping, the effects of intercropping on community composition of ammonia-oxidizing bacteria were less pronounced at the seedling stage of the two species but were significant at anthesis.     

蚕豆根分泌物对紫色土有效养分及微生物数量的影响

为培育紫色土肥力和合理利用蚕豆资源,本研究首先通过溶液培养法收集到蚕豆根系分泌物后,并通过真空旋转蒸发仪得到浓缩液,然后通过室内土壤培养试验,即分别在3种60 g紫色土(酸性紫色土、碱性紫色土和中性紫色土)添加2个水平[6 m L(低量)和12 m L(高量)]的蚕豆根系分泌物浓缩液,并置于25℃恒温箱中黑暗培养15 d,从而探索蚕豆根系分泌物对不同紫色土有效养分和微生物数量的影响。结果表明:在3种紫色土上,与对照相比,添加低量和高量蚕豆根系分泌物浓缩液后,土壤碱解氮含量和p H均显著降低;而土壤有效磷、速效钾、有效铁、有效锌含量和微生物数量均显著增加,且此趋势随根系分泌物浓缩液添加量增加而增强。与其他两种紫色土相比,酸性紫色土添加蚕豆根系分泌物浓缩液对于土壤碱解氮含量和p H的降低效应最明显,对土壤中细菌和真菌数量增加效应更为显著,与对照相比,增幅分别为-32.00%、-4.51%、3.51倍和9.00倍。与其他两种紫色土相比,碱性紫色土添加高量蚕豆根系分泌物浓缩液对土壤有效磷、速效钾、有效锌和有效铁含量活化效应最强,分别是对照的4.48倍、2.04倍、147.10%和128.00%。在中性紫色土上,添加高量蚕豆根系分泌物浓缩液对以上土壤有效养分和土壤微生物数量的影响介于酸性紫色土和碱性紫色土之间。总之,蚕豆根系分泌物对不同紫色土土壤有效养分(土壤碱解氮和p H除外)和土壤微生物活性有不同促进效应,这对于紫色土肥力培育有深远影响。     

长期定位施肥对夏玉米光合特性及产量的影响研究

在长期定位试验基础上,采用以化肥为主处理、玉米秸秆为副处理的二因素裂区设计,通过对夏玉米叶面积、叶面积指数、功能叶叶绿素含量等光合特性及产量构成等的研究,探讨了秸秆与氮磷化肥配施对夏玉米光合特性及产量的影响.研究结果表明:长期施用秸秆对夏玉米增产有积极作用,但产量的增加主要靠化肥的投入,秸秆和化肥配施能更大幅度地增加夏玉米产量.从植株光合特性看,随氮磷化肥用量的增加,夏玉米叶面积和叶面积指数增大,到灌浆后期叶面积指数维持在3.5左右.长期不施肥和仅施秸秆处理玉米功能叶叶绿素含量低.长期施用秸秆促进了玉米叶面积的增加,其增产作用表现在穗粒数的增加上.化肥和秸秆配施在促进玉米生长的同时还能延缓叶片衰老,更大程度地增加穗粒数,提高千粒重,进而增加夏玉米产量.秸秆还田和氮磷化肥配施是该区较好的施肥模式.     

施氮模式对玉-麦周年轮作系统产量和氮吸收利用的影响

为明确适宜豫北平原夏玉米-冬小麦一体化种植的高效施氮管理模式,2016—2017年分别在豫北典型高产田区河南省鹤壁市和中产田区河南省原阳县开展了夏玉米-冬小麦周年轮作不同施氮模式对夏玉米与冬小麦产量、氮素吸收和利用效率影响的田间试验。共设5种处理:不施氮肥(T1)、普通尿素按210 kg(N)?hm?2一次性基施(T2)、普通尿素分次施用且总施氮量同T2(T3)、控释尿素与普通尿素配比氮素减量施用(T4)和控释尿素与普通尿素配比氮素足量施用(T5)。分别于夏玉米和冬小麦关键生育期测试叶片SPAD值、植株与籽粒氮含量及生物量等氮营养指标,并于成熟期测定产量和产量构成因子,分析计算植株氮积累量与吸收利用特征。结果表明,处理间,高、中产区夏玉米与冬小麦产量、产量构成因子及氮素营养指标整体变化趋势均为T5T4T3T2T1。产区间,各处理夏玉米和冬小麦产量性状及氮营养指标均表现为高产区显著优于中产区。综合各处理平均值,高产区夏玉米产量、植株氮含量和氮素积累量相比于中产区分别平均提高58.0%、19.2%和47.1%,冬小麦增幅则分别为34.7%、33.3%和85.9%。氮利用效率方面,高、中产田在氮肥表观利用率、氮肥农学效率和100kg籽粒需氮量变化趋势均表现为T5T4T3T2T1,处理间差异显著;氮素收获指数则与此相反。豫北平原夏玉米-冬小麦周年轮作制在作物稳产甚至增产条件下,采用尿素与缓释氮肥掺混配施的氮肥优化施用模式不仅可有效减少肥料用量,还能显著提升肥料利用率,降低氮肥损失。     

Microbial growth and nitrogen immobilization in the root zone of barley (Hordeum vulgare L.), Italian ryegrass (Lolium multiflorum Lam.), and white clover (Trifolium repens L.)

Summary The effect of roots on microbial growth and N immobilization was investigated in a pot experiment with barley, Italian ryegrass, and white clover. We used a silty subsoil with a low soil organic matter content (0.16%C and 0.012%N), which allowed us to measure N immobilization as an increase in total soil organic N (planted versus unplanted). At sampling, the soil was easily removed from intact roots by gentle washing, with a negligible loss of root material. Plant growth and extra mineral N (in planted soil only) gave increased total counts (fluorescence microscopy) and viable counts (plate dilution) of bacteria, a higher proportion of larger cells, and increased viable counts as a percentage of total counts. Under monocots, 12–17% of the added fertilizer N was recovered as soil organic N. Although this N immobilization was attributed to microbial assimilation, less than 1/4 was actually recovered as microbial biomass N, as measured with the chloroform fumigation/N-extraction method or calculated from total bacterial counts. The white clover accumulated substantial amounts of N due to N₂ fixation. However, microbial N immobilization represented only 3% of the total N accumulation, showing that the microorganisms obtained a smaller share of biologically fixed N₂ than of the N applied as fertilizer. Extra additions of mineral N (monocots) enhanced microbial N assimilation, partly due to increased plant growth. The results also strongly indicated, however, that the microbial growth under monocots was N-limited in the latter part of the experiment and that fertilizer N had a direct effect on microbial growth. In the early phase of plant growth, N immobilization ranged from 33 to 58 mg N g^-1 root C. This level of immobilization required a release of organic C into the soil representing a minimum of 60–100% of that found in intact roots.     

Growth, P uptake and rhizosphere properties of intercropped wheat and chickpea in soil amended with iron phosphate or phytate

Intercropping has been shown to increase total yield and nutrient uptake compared to monocropping. However, depending on crop combinations, one crop may dominate and decrease the growth of the other. Interactions in the soil, especially in the rhizosphere, may be important in the interactions between intercropped plant genotypes. To assess the role of the rhizosphere interactions, we intercropped a P-inefficient wheat genotype (Janz) with either the P-efficient wheat genotype (Goldmark) or chickpea in a soil with low P availability amended with 100 mg P kg⁻¹ as FePO₄ (FeP) or phytate. The plants were grown for 10 weeks in pots where the roots of the genotypes could intermingle (no barrier, NB), were separated by a 30 μm mesh (mesh barrier, MB), preventing direct root contact but allowing exchange of diffusible compounds and microorganisms, or were completely separated by a solid barrier (SB). When supplied with FeP, Janz intercropped with chickpea had higher shoot and grain dry weight (dw) and greater plant P uptake in NB and MB than in SB. Contact with roots of Janz increased shoot, grain and root dw, root length, shoot P concentration and shoot P uptake of chickpea compared to SB. Root contact between the two wheat genotypes, Janz and Goldmark, had no effect on growth and P uptake of Janz. Shoot and total P uptake by Goldmark were significantly increased in NB compared to MB or SB. In both crop combinations, root contact significantly increased total plant dw and P uptake per pot. Plant growth and P uptake were lower with phytate and not significantly affected by barrier treatment. Differences in microbial P, available P and phosphatase activity in the rhizosphere among genotypes and barrier treatments were generally small. Root contact changed microbial community structure (assessed by fatty acid methyl ester (FAME) analysis) and all crops had similar rhizosphere microbial community structure when their roots intermingled.     

Using arbuscular mycorrhiza to alleviate the stress of soil compaction on wheat (Triticum aestivum L.) growth

Since large areas of agricultural fields in the world become compacted every year, much effort has been made to reduce the adverse effects of soil compaction on plant growth. Mechanical methods to control soil compaction may be laborious and expensive; however, biological methods such as using arbuscular mycorrhiza (AM) may be more useful, economically and environmentally. The objectives of this study were: (1) to evaluate the effects of soil compaction on wheat (Triticum aestivum L.) growth, and (2) to evaluate if using AM of different origin can reduce the stressful effects of soil compaction on wheat growth. Unsterilized and sterilized soils, different levels of compaction and three species of arbuscular mycorrhiza were applied in four replicates. The experiments were conducted in the Soil and Water Research Institute, Karaj, Iran. Soil physical and chemical properties were determined. The AM increased wheat growth in both soils at different levels of soil compaction in both experiments. For root, shoot (P=0.1) and grain (P=0.05) dry weights increases were significant. AM enhanced root growth more than shoot growth under compaction (AM resulted in significant increase in root/shoot ratios, P=0.1). Due to its unique characteristics, AM may reduce the stressful effects of soil compaction on wheat growth, though its effectiveness may decrease with increasing compaction.     

温度对盐胁迫小麦抗氧化机制的影响

本研究以耐盐性不同的8个冬小麦品种为材料,分别在室温(20℃/25℃)和接近小麦生产的低温(10℃/15℃)条件下采用溶液培养,并在苗期进行盐胁迫处理(150 mmol·L-1 Na Cl),研究温度和盐胁迫交互作用对耐盐性不同的小麦抗氧化机制的影响。结果表明,对室温培养的幼苗进行盐胁迫后,耐盐强的小麦幼苗超氧化物歧化酶(SOD)、过氧化物酶(POD)、过氧化氢酶(CAT)和抗坏血酸过氧化酶(APX)活性均显著升高,并且高于2个耐盐性弱的品种;而耐盐性弱的小麦幼苗盐处理后仅APX活性显著升高,其活性氧(ROS)累积量和叶片相对电导率均高于耐盐小麦;抗旱小麦以上指标介于耐盐品种和耐盐性弱的品种中间。低温培养下进行盐胁迫,谷胱甘肽还原酶(GR)在所有供试品种中均显著升高2~3倍;耐盐品种仅CAT和APX活性升高,抗旱品种SOD、POD和APX以及耐盐性弱的品种SOD和POD活性显著提高。由此得出与室温盐胁迫下小麦抗氧化机制的响应不同,低温盐胁迫条件下,耐盐小麦SOD和POD酶活性受到抑制,主要通过提高抗坏血酸-谷胱甘肽循环的两个关键酶APX和GR活性增加对ROS的清除能力,而抗旱品种和耐盐性弱的品种除GR酶活性显著提高外,SOD和POD对ROS的清除能力均显著增强。在各种抗氧化酶的共同作用下,耐盐性不同的小麦品种之间ROS累积量和叶片电导率等受伤害指标的差异程度与室温盐胁迫相比减弱。     

Effect of dairy slurry application on soil compaction and corn (Zea mays L.) yield in Southern Wisconsin

As stocking rates on Wisconsin dairy farms continue to increase, one possible nutrient management solution is to haul slurry to nearby grain farmer's fields. Although the nutrient and soil building benefits of manure are well known, many grain farmers are hesitant to apply manure on their fields due to potential soil compaction. Studies were initiated to evaluate the effects of tanker-applied slurry on soil compaction and corn (Zea mays L.) yield. An on-station trial was established to address the issues of compaction caused by manure tankers, repeated traffic associated with field headlands, and the possible ameliorating effect of manure itself on corn yield. In addition, 15 replicated on-farm trials were established to evaluate the impact of single pass manure applications on soil compaction and yield. These predominately fall applications were conducted when the host farmer felt that the soil would support tanker traffic. Due to its portability and instrument sensitivity, compactness was evaluated with a data-logging hand held penetrometer.Results from the on-station trial indicate that multiple passes did increase compactness above single-pass traffic and the check. The slurry itself did not attenuate the effect of traffic on soil compaction, nor on yield. Despite yield reductions estimated from in-track samples in both years of 6% (one-pass traffic) and 22% (six-pass traffic) in this study, whole plot corn yields were not reduced due to compaction. The on-farm trials indicated that manure application technique does affect compaction patterns; with broadcast application resulting in less area trafficked by the tanker than injection application, and therefore less area compacted. The narrower gauge truck tires used at some sites led to significantly higher penetrometer readings compared to the control, but this was not the case at sites with wider tractor tires. As in the on-station work, although compaction led to higher penetrometer readings, whole plot corn yields in compacted plots were not adversely affected compared to the control. These results suggest that, in the first year after slurry application, on predominantly prairie derived soils; well-timed applications of dairy slurry do not cause extensive soil compaction nor a reduction in corn yields. This study did not look at the potential residual effects that may positively (>soil organic matter) or negatively (residual soil compaction) impact subsequent crops.     

小麦根际解钾微生物与土壤钾含量、钾素利用率及根系活力的关系

[目的]探讨肥料施用方式和施钾量对土壤不同形态钾含量及小麦根系活力的影响,以期为提高土壤钾素利用效率提供技术支持.[方法]2018—2020年连续两年,采用裂裂区设计,主区为肥料(A):设20％ 有机肥(鸡粪)+80％ 氮肥(A1),100％ 氮肥(A2)2个水平;副区为施钾量(B):设不施钾(B1)、减量施钾80 k...     

麦茬处理方式对机播夏玉米的生态生理效应

为探求适合黄淮海平原机播夏玉米的最佳麦茬处理方式,采用大田试验,研究了麦茬处理方式(平茬、立茬、除茬)对机播夏玉米的生态生理效应.结果表明,平茬有利于提高土壤含水率、平衡和改善耕层土壤温度,较好地满足玉米生长对土壤温度和水分的需求.3展叶时,玉米叶面积、干物质重等指标都以除茬处理最好;6展叶时,平茬处理玉米的株高、单株干重、叶面积、光合速率均表现最优,产量也最高.所以平茬处理为机播夏玉米的生长提供了较好的生态条件,促进了夏玉米的生长发育和产量的提高,有很大的推广价值.     

Effect of aggregate size and soil water content on emergence of soybean (Glycine max, L. Merr.) and maize (Zea mays, L.)

Rapid wetting of irrigated soils often leads to slaking and slumping, and on drying a surface crust and hard-set conditions may occur. This results in reduced crop emergence unless the surface is kept moist. The effect of aggregate size and water content on the emergence of soybean and maize from an Entic chromustert (heavy cracking clay) was determined using pots of sieved aggregates with size ranges less than 1, 1–2, 2–5 and 5–15 mm at soil water contents of 15, 20 and 25 g (100 g)⁻¹. Unsieved soil was used as a control. Greatest emergence tended to occur from fine (1–2 mm) seedbeds compared with coarse (5–15 mm) seedbeds for both crops. A covered treatment, simulating a stubble mulch, resulted in greater emergence than an uncovered treatment for all water contents and aggregate sizes. Earlier emergence occurred from finer (less than 1 mm and 1–2 mm) seedbeds than from coarse (5–15 mm) seedbeds, and at the greatest water content used. Soil strength, measured with a shear vane, decreased with increasing water content and tended to be less on fine (1–2 mm) seedbeds compared with very fine (less than 1 mm) or coarse (5–15 mm) seedbeds. It is recommended that, for good emergence from this Entic chromustert, seedbeds be brought to a water content of 25 g (100 g)⁻¹ by capillary wetting to prevent hardsetting and consist of 1–2 or 2–5 mm aggregates for soybean and maize, respectively, and have a stubble mulch on the surface. This corresponds to an equivalent depth of water of 15 mm and 9 mm for soybean and maize, respectively, in the top 50 mm of the profile.     

运用多隔层根箱研究黑麦草根际微域中芘的降解

采用多隔层根箱,通过尼龙撩网插片的控制,实现根室土(S0)、离根室0～2 mm(S1)、2～4 mm(S2)、4～6 mm(S3)及>6 mm(S4)各室层土壤的分离采集,测定各室层土壤可提取态芘含量、土壤微生物生物量碳、土壤基础呼吸强度、微生物熵、代谢熵、脱氢酶和多酚氧化酶活性。结果表明:种植黑麦草处理的各室层内土壤可提取态芘含量存在显著的不同,可提取态芘含量在各室层的大小顺序为S4>S3>S0>S2>S1;各室层土壤微生物生物量碳、土壤基础呼吸强度、微生物熵、代谢熵、脱氢酶和多酚氧化酶活性表现出与可提取态芘含量变化相反的趋势。未种植黑麦草处理的各室层土壤可提取态芘含量、土壤微生物生物量碳、土壤基础呼吸强度、微生物熵、代谢熵、脱氢酶和多酚氧化酶活性没有差异。种植黑麦草处理各室层土壤可提取态芘含量与土壤微生物生物量碳、土壤基础呼吸强度、微生物熵、代谢熵、脱氢酶活性和多酚氧化酶活性之间均存在显著的负相关性(p<0.05)。主成分分析结果表明种植黑麦草处理土壤微生物活性在各室层间发生了明显的变化。     

播期与密度组合对夏玉米群体源库关系及冠层透光率的影响

通过播种期和密度两因素耦合试验(3个播期,各播期下设3个密度)研究不同播期、密度组合对夏播玉米群体源库关系及冠层透光率的影响。结果表明:适宜播期(6月22日之前)与适当密度(半紧凑型品种"金海5号"为6.00～7.50万株·hm-2,紧凑型品种"郑单958"为6.75～8.25万株·hm-2)组合的各源库指标表现较优。叶面积指数(LAI)在吐丝期达到4.88～5.97,成熟期仍保持在2.73～4.48;群体透光率在吐丝期和成熟期分别达21.09%～34.82%和27.97%～35.29%;吐丝期穗位叶片Pn较高,达34.4～41.7μmol(CO2)·m-2·s-1;"金海5号"6月15～17日播种、播种密度为7.50万株·hm-2,"郑单958"6月15～17日播种、播种密度为8.25万株·hm-2时,均产量达到最大,分别为14863.50kg·hm-2和15123.30kg·hm-2。     

Effects of seed priming, aggregate size and soil matric potential on emergence of cotton (Gossypium hirsutum L.) and maize (Zea mays L.)

Poor crop establishment, due to poor land preparation methods and inadequate soil moisture, continues to be a major constraint to crop production for smallholder farmers in the semi-arid tropics. On-farm seed priming (soaking seed in water) has been offered as a solution to this problem, but the ways in which this technology interacts with soil conditions are not well understood. The interactions between seed priming and soil physical conditions on cotton (Gossypium hirsutum L.) and maize (Zea mays L.) emergence and seedling growth were determined in laboratory pot experiments. The treatments included seed treatment (primed and non-primed), initial soil matric potential (−10, −50, −100, −200 and −1500 kPa) and aggregate size (<1, 1–2, 2–4.75 and 4.75–16 mm). Non-sieved soil was used as a control. The soil used (a Chromic Cambisol) was collected from Save Valley Experiment Station in the southeastern lowveld of Zimbabwe. The pots of soil were allowed to dry out after planting, to simulate a deteriorating seedbed. Emergence was subsequently monitored, and plant growth measured 8 days after planting. Final percent emergence and seedling growth decreased with initial matric potential but increased with priming in both crops. Large aggregate sizes generally had an adverse effect on emergence and growth. The data are consistent with the hypothesis that on-farm seed priming can partly compensate for the negative effects of low soil matric potential and large aggregate sizes on crop establishment.     

淹涝胁迫和氮形态对苗期玉米糖、氮代谢底物量的影响

采用砂培培养方法,比较研究淹水和不同氮形态(铵态氮、硝态氮以及铵态氮︰硝态氮为1︰1)对苗期玉米根、茎鞘和叶的糖、氮代谢底物——可溶性糖、还原糖、硝态氮和游离氨基酸等物质含量的影响。结果表明,当淹涝胁迫持续7 d时,在非淹涝胁迫条件下,铵态氮处理的根、茎鞘和叶的可溶性糖和游离氨基酸含量均显著高于硝态氮处理(P<0.05);在淹涝胁迫条件下,硝态氮处理的根、茎鞘和叶的生物量干重显著低于铵态氮处理(P<0.05),其根和叶的生物量干重也显著低于铵态氮、硝态氮混合处理(P<0.05)。与非淹涝条件相比,在淹涝胁迫条件下,硝态氮处理的根系和叶的硝态氮含量显著降低(P<0.05),降低幅度分别高达62.6%和30.0%;此外,与非淹涝条件相比,在淹涝胁迫条件下,铵态氮处理的根的可溶性糖、还原糖以及游离氨基酸含量,茎鞘的可溶性糖和还原糖含量以及叶的可溶性糖和游离氨基酸含量均显著升高(P<0.05),而硝态氮处理仅根、茎鞘和叶的还原糖含量以及叶的游离氨基酸含量显著升高(P<0.05)。因此,在本试验条件下,由于糖、氮代谢底物含量充足,铵态氮处理的苗期玉米具有相对较强的耐淹涝胁迫能力。     

Influence of crop residue management, cropping system and N fertilizer on soil N and C dynamics and sustainable wheat (Triticum aestivum L.) production

Management of N is the key for sustainable and profitable wheat production in a low N soil. We report results of irrigated crop rotation experiment, conducted in the North West Frontier Province (NWFP), Pakistan, during 1999–2002 to evaluate effects of residue retention, fertilizer N application and mung bean (Vigna radiata) on crop and N yields of wheat and soil organic fertility in a mung bean–wheat sequence. Treatments were (a) crop residue retained (+residue) or (b) removed (−residue), (c) 120 kg N ha⁻¹ applied to wheat, (d) 160 kg N ha⁻¹ to maize or (e) no nitrogen applied. The cropping system was rotation of wheat with maize or wheat with mung bean. The experiment was laid out in a spit plot design. Postharvest incorporation of crop residues significantly (p < 0.05) increased the grain and straw yields of wheat during both years. On average, crop residues incorporation increased the wheat grain yield by 1.31 times and straw yield by 1.39 times. The wheat crop also responded strongly to the previous legume (mung bean) in terms of enhanced grain yield by 2.09 times and straw yield by 2.16 times over the previous cereal (maize) treatment. Application of fertilizer N to previous maize exerted strong carry over effect on grain (1.32 times) and straw yield (1.38 times) of the following wheat. Application of N fertilizer to current wheat produced on average 1.59 times more grain and 1.77 times more straw yield over the 0 N kg ha⁻¹ treatment. The N uptake in wheat grain and straw was increased 1.31 and 1.64 times by residues treatment, 2.08 and 2.49 times by mung bean and 1.71 and 1.86 times by fertilizer N applied to wheat, respectively. The soil mineral N was increased 1.23 times by residues, 1.34 times by mung bean and 2.49 times by the application of fertilizer N to wheat. Similarly, the soil organic C was increased 1.04-fold by residues, 1.08 times by mung bean and 1.00 times by the application of fertilizer N. We concluded that retention of residues, application of fertilizer N and involvement of legumes in crop rotation greatly improves the N economy of the cropping system and enhances crop productivity in low N soils.     

秸秆还田方式和氮肥类型对黄淮海平原夏玉米土壤呼吸的影响

为了研究黄淮海平原不同秸秆还田方式和施氮类型对夏玉米农田生态系统土壤呼吸的影响,于2010年6—10月,采用LI-COR-6400-09土壤气室连接红外线气体分析仪(IRGA)对玉米农田行间掩埋秸秆区的土壤呼吸作用进行了连续测定。结果表明,常规施肥下,玉米生育期内秸秆行间掩埋处理(ISFR)的平均土壤呼吸速率显著高于秸秆移除(NSFR)和秸秆覆盖(SFR)处理(P<0.05)。秸秆行间掩埋配合施用化学氮肥处理中,配施50.4 kg(N).hm 2处理(ISF3)的平均土壤呼吸速率为(178.85±46.60)mg(C).m 2.h 1,显著高于配施33.6 kg(N).hm 2处理(ISF2)的(124.11±23.18)mg(C).m 2.h 1(P<0.05)。秸秆行间掩埋配合施用鸡粪处理中,鸡粪施用量为33.6kg(N).hm 2(ISOM2)处理的平均土壤呼吸速率为(208.08±31.54)mg(C).m 2.h 1,施用16.8 kg(N).hm 2(ISOM1)和50.4 kg(N).hm 2(ISOM3)处理的为(135.07±21.97)mg(C).m 2.h 1、(171.43±43.31)mg(C).m 2.h 1,相比ISOM2处理,ISOM1和ISOM3处理的平均土壤呼吸速率降低了35.09%和17.61%。ISOM2处理玉米季CO2排放累积量为499.39 g(C).m 2,显著高于ISF2处理的297.86 g(C).m 2。秸秆行间掩埋配合施用化学氮肥对土壤呼吸速率的影响小于配合施用鸡粪的影响,配合施用16%总氮的鸡粪,即33.6 kg(N).hm 2时C/N比最适宜土壤微生物的代谢活动。     

不同覆膜栽培方式对玉米干物质积累及产量的影响

为探讨地膜覆盖栽培方式的增产机理,完善地膜覆盖玉米栽培技术,采用田间试验法,以露地平播为对照,比较了全膜双垄沟播、半膜双垄沟播、半膜平铺、膜侧沟播等4种栽培方式对玉米叶面积、光合势、干物质积累、穗部性状、产量及其构成因子、水分利用效率的影响,并进行了成本和效益分析。结果表明:全膜或半膜双垄沟播显著增加了各个生育时期玉米的叶面积,半膜平铺和膜侧沟播作用不大;全膜和半膜双垄沟播及膜侧沟播显著提高了玉米的光合势,半膜平铺对生长前期光合势有一定促进作用,但后期出现不利影响;全膜和半膜双垄沟播增加了玉米穗长、穗粗、穗行数和行粒数,但也增加了秃顶长。半膜平铺对穗长、穗粗和穗行数有一定促进作用,降低了秃顶长,但对行粒数作用并不明显。膜侧沟播对穗长、穗行数和行粒数有一定促进作用,但对穗粗和秃顶长作用并不明显;各种覆膜栽培方式均提高了玉米穗粒数和百粒重,但降低了单株成穗数。穗粒数与产量的灰色关联度最大、百粒重次之、单株成穗数最低;全膜双垄沟播、半膜双垄沟播、膜侧沟播、半膜平铺栽培方式分别比对照增产67.23%、60.08%、38.81%和20.02%,水分利用效率分别比对照提高66.43%、59.54%、38.35%和19.63%,经济收益分别比对照增加85.51%、69.58%、36.37%和18.69%。说明全膜双垄沟播玉米具有较高的产量和经济收益优势。     

Effect of liming on some chemical,biochemical, and microbiological properties of acid soils under spruce (Picea abies L.)

Summary Soil pH, total organic C, total N, exchangeable Al, available P, CO₂ evolution, microbial biomass C and N, phosphatase and dehydrogenase activities were determined in acid soils sampled under spruce subjected to acid deposition, before and after liming. A slight decrease in pH values was observed from the edge of a tree canopy to the base of the trunk in acid soils. Liming drastically reduced exchangeable Al and increased CO₂ evolution, microbial biomass, and the metabolic quotient. The microbial biomass C to total organic C ratio increased after liming but did not reach 2%, the average value considered valid in soils where the C content is in equilibrium, that is when C inputs are equal to C outputs. The microbial biomass C:N ratio decreased after liming, thus indicating that bacteria became predominant over fungi when soil acidity decreased. Dehydrogenase activity but not phosphatase activity was increased by liming. The decrease in phosphatase activity was not completely related to the increase in available P, but was also dependent on microbial growth and the decrease in acid phosphatase, the predominant component of acid soils.