Energy and moisture considerations on cutover peatlands: surface microtopography, mulch cover and Sphagnum regeneration

This study examined (i) the effect of artificially created microtopography and straw mulch on the soil moisture and (ii) energy balance and the establishment of a Sphagnum cover on a cutover peatland. Straw mulch caused rainfall interception approaching 2 mm per event. Although interception represented 44% of the total rainfall over the measurement period, water that evaporated from the mulch used energy that would otherwise have been used to evaporate soil water. Thus, the net effect of interception by mulch was negligible. The soil heat flux below the mulch was only 13% of the bare soil value and was decoupled from the daily net radiation. Net radiation over the bare soil was 15% greater than over the mulch. However, because of the greater heat flux into the bare peat, the energy available for sensible and latent heat fluxes was similar between the mulch covered and bare peat. Average evaporation from mulch and bare soil was estimated to be 2.6 and 3.1 mm d⁻¹, respectively. Soil water tension 1 cm below the surface remained above −100 cm (mb) all season (100% of the time) when a mulch was used, compared to only 30% of the time in the bare soil. Correspondingly, the water table was sustained above the 40 cm depth, 60% of time in the mulch covered site, compared to only 40% of the time in the bare peat site. Negative relief elements of the microtopography were wetter and cooler than positive relief elements. However, when under a mulch, the negative relief elements provided no additional benefit, in terms of temperature or soil moisture amelioration. The control site with a mulch cover was equivalent or better than negative relief elements with a mulch cover. Taking into account the poorer performance of positive relief elements, even when mulch covered, the creation of surface microtopography reduced the overall moisture content of the site. Sphagnum established and spread only when the diaspores were protected with a straw mulch. All microtopography types tested had no effect on the establishment of Sphagnum mosses when the microtopography treatments, including positive and negative relief elements, were treated as a whole, although being in a depression helped Sphagnum establishment.     

宁南旱区耕作覆盖对马铃薯产量及土壤水热特征的影响

为探究耕作覆盖对土壤水热及旱作马铃薯产量的影响,连续2年在宁南旱区不同耕作深度结合覆盖模式下开展了研究工作。结果表明: 耕作深度、覆盖材料对马铃薯播种期0～100 cm土层土壤贮水量有极显著影响,而二者交互作用无显著影响;2019年土壤贮水量以深松30 cm覆盖地膜处理最高,2020年以深松40 cm覆盖秸秆处理较高,分别较翻耕15 cm不覆盖处理(对照)显著提高16.9%和33.4%;耕作深度、覆盖材料可显著影响马铃薯关键生育期土壤贮水量;同一耕作深度下土壤贮水量以秸秆、地膜覆盖处理效果较好,同一覆盖材料下以深松30～40 cm处理最佳。覆盖材料、耕作深度与覆盖材料二者交互作用对播种-现蕾期0～25 cm土层土壤有效积温影响显著;同一耕作深度下覆盖地膜处理土壤有效积温平均较不覆盖处理显著增加9.3%,而覆盖秸秆处理较不覆盖处理显著降低18.7%;2019和2020年各处理全生育期土壤有效积温分别以深松30 cm和深松40 cm覆盖地膜处理最高。2019年马铃薯总产量和经济效益以深松30 cm覆盖秸秆处理较高,分别较对照显著提高84.6%和107.9%;2020年以深松40 cm覆盖秸秆处理最佳,分别较对照显著提高81.7%和105.7%。耕作深度、覆盖材料对作物水热利用效率均有显著影响,水分利用效率以深松30～40 cm覆盖秸秆处理较高,而积温利用效率不同耕作深度结合秸秆覆盖各处理均较翻对照显著提高。相关分析表明,块茎形成期的土壤水分和有效积温对马铃薯总产量的形成至关重要,而全生育期土壤水分对总产量的影响高于土壤有效积温。可见,深松30～40 cm覆盖秸秆处理可改善土壤水热状况,实现马铃薯增产增收和水热资源的高效利用,在宁南半干旱区马铃薯生产中有一定的应用推广价值。     

不同覆盖施肥措施对黄土旱塬冬小麦土壤水分的影响

于2007年9月—2008年7月在位于黄土高原渭北旱塬的王东沟试验区进行冬小麦不同覆盖施肥措施（包括不施肥、农民习惯施肥、推荐施肥、推荐施肥+有机肥、推荐施肥+垄上覆膜、推荐施肥+垄上覆膜+沟内覆草、推荐施肥+全区覆草7个处理）田间试验,并采用水分中子仪定期观测土壤含水量,研究黄土高原旱塬区不同栽培措施下土壤水分的变化特征.结果表明：在干旱季节（春季）,推荐施肥+垄上覆膜+沟内覆草措施有利于贮存更多的土壤水分,其土壤储水量约比最低值（推荐施肥+有机肥）高48.2 mm,并可将土壤水分保持到冬小麦需水的关键期,而且推荐施肥+垄上覆膜措施仅次于推荐施肥+垄上覆膜+沟内覆草,表明这两种措施能够在田间蓄积较多天然降水,有利于黄土高原旱区雨养农业的发展.     

枝条覆盖对半干旱黄土丘陵区平茬柠条林地土壤水分的影响

为了研究枝条覆盖对林地土壤水分的影响,提高土壤水分利用效率。2013年5—9月,以半干旱黄土丘陵区平茬柠条林为对象,采用中子水分仪对未覆盖和枝条覆盖林地土壤水分进行定位观测,研究了枝条覆盖对林地土壤水分的影响。研究期间共观测到降雨28次,总降雨量达495.9 mm。未覆盖和覆盖林地降雨补给量与降雨量之间均呈极显著正相关关系。枝条覆盖使林地降水入渗补给系数由0.50增加至0.70,明显提高了林地次降水补给量和入渗深度。覆盖林地各月土壤水分消耗量均高于对照林地,整个生长季,前者比后者多消耗了37.56 mm土壤水分,仅相当于所增加的降雨补给量的1/3。在丰水年,覆盖一直表现出对林地土壤水分的正效应,剖面0—260 cm范围内土壤水分条件有明显改善。     

Native soil fungi associated with compostable plastics in three contrasting agricultural settings

Plastics are used widely as agricultural mulches to suppress weeds and retain soil moisture. Disposal of conventional plastic mulches requires physical removal for disposal in a landfill or incineration. Biodegradable plastic mulches that could be tilled into the soil at the end of a growing season represent an attractive alternative to conventional plastic mulches. In this study, three commercially available mulches labeled as “biodegradable” and one experimental, potentially biodegradable mulch were used during a tomato growing season, and then buried in field soil at three locations for approximately 6 months, as would occur typically in an agricultural setting. Degradation after 6 months in soil was minimal for all but the cellulosic mulch. After removal of mulches from soil, fungi were isolated from the mulch surfaces and tested for their ability to colonize and degrade the same mulches in pure culture. The majority of culturable soil fungi that colonized biodegradable mulches were within the family Trichocomaceae (which includes beneficial, pathogenic, and mycotoxigenic species of Aspergillus and Penicillium). These isolates were phylogenetically similar to fungi previously reported to degrade both conventional and biodegradable plastics. Under pure culture conditions, only a subset of fungal isolates achieved detectable mulch degradation. No isolate substantially degraded any mulch. Additionally, DNA was extracted from bulk soil surrounding buried mulches and ribosomal DNA was used to assess the soil microbial community. Soil microbial community structure was significantly affected by geographical location, but not by mulch treatments.     

晋南旱地麦田夏闲期土壤水分和养分变化特征

2009-2011年在晋南旱地冬小麦种植区,研究了传统施肥(CF)、推荐施肥(RF)及垄膜沟播(RFFP)处理结合秸秆覆盖措施对夏闲期(6-9月)2 m土层土壤水分、NO₃^--N,以及0～40 cm土层速效磷、速效钾含量的影响.结果表明: 夏闲期降水可补充旱地麦田2 m土层土壤在冬小麦生长季所消耗的水分,其中94%以上蓄水量集中在0～140 cm土层,休闲效率为6%～27%.夏闲期降水易引起NO₃^--N下移;357～400 mm的降水量可使NO₃^--N淋移到100 cm土层,积累峰值在20～40 cm土层.夏闲期秸秆覆盖或地膜与秸秆配合覆盖可有效提高0～40 cm土层速效磷和速效钾含量,3个夏闲期累计增加量分别为17%～45%和36%～49%.不同处理间以垄膜沟播+沟内覆盖秸秆的二元覆盖模式蓄水培肥效果最佳,3个夏闲期2 m土层土壤累计蓄水215 mm,累计矿化氮90 kg·hm^-2,耕层土壤速效磷和速效钾含量分别累计增加2.7和83 mg·kg^-1,显著高于推荐施肥和传统施肥处理.推荐施肥和传统施肥处理对土壤水分、养分变化的影响无显著差异.     

碎石覆盖对河流硬质护坡土壤抗侵蚀性及植物生长的影响

针对河流硬质护坡生态修复中的稳定性和水分平衡等技术难点,提出了一种碎石覆盖技术,并通过抗冲刷实验和盆栽实验分析了不同碎石覆盖对土壤抗冲刷能力、保水性能及植物生长的影响.结果表明：粒径为1.5～2 cm的碎石覆盖处理在增强土壤抗冲刷能力、提高土壤保水性能和植物生物量方面效果明显,但覆盖厚度为5 cm和8 cm的碎石覆盖处理在抗冲刷、保水和促进植物生长方面的作用均无明显差异.厚5 cm、粒径为1.5～2 cm的碎石覆盖技术是硬质护坡生态修复中一种经济有效的技术方法.     

The effect of soil temperature,moisture and nitrogen on Striga asiatica (L.) Kuntze seed germination,viability and emergence on sorghum (Sorghum bicolor L. Moench) roots under field conditions

Experiments were conducted in a Striga-sick field to study the effect of soil temperature, moisture and nitrogen on Striga parasitism on sorghum. Striga seeds contained in nylon bags and buried at 2 cm in the soil, were exposed to different temperature and moisture treatments. Clear polythene, hay mulch and bare soil treatments were used to vary soil temperature. These treatments gave mean maximum temperatures of 60°, 48° and 37°C, respectively at 2-cm soil depth. Irrigation levels of 0, 30 and 60 mm were applied to change soil moisture. Striga seed germination, viability and emergence were studied. After 34 days of preconditioning, the exhumed Striga seeds from polythene-covered plots (solarized plots) did not germinate or retain viability when these seeds were exposed to sorghum root exudate. However, seeds similarly buried under hay mulch or bare soil, with mean maximum soil temperatures of 48° and 37°C, respectively, had similar germination and viability percentages. Of these 75% germinated and 85% of them were viable, regardless of the temperature treatment. Although seeds stored at high temperature and humidity (solarization) were killed, more Striga plants emerged under the polythene treatment compared to hay mulch and bare soil treatments. The observed Striga plants in the polythene mulch treatment were, therefore, assumed to have come from deeper layers where solarization was not effective. Irrigation treatments did not have significant effects on Striga seed germination and viability, but a slightly higher number of plants emerged at 60-mm irrigation level than at 30-mm and 0-mm. Striga emergence, on the other hand, was directly related to the rate of N application. Nitrogen rates of 0, 25, 50 and 100 kg ha^–1 resulted in the emergence of 11, 34, 38 and 40 Striga plants per plot, respectively. Despite the high infestation at high N levels, sorghum plants did not show a loss of vigor. Nitrogen application, therefore, does not reduce Striga incidence, but seems to neutralize the harmful effects of Striga without reducing the extent of parasitism.     

Effects of straw mulching on soil temperature, evaporation and yield of winter wheat: field experiments on the North China Plain

Straw mulching is an effective measure to conserve soil moisture. However, the existence of straw on the soil surface also affects soil temperature, which in turn influences crop growth, especially of winter crops. Five‐year field experiments (2000–2005) investigated the effects of straw mulching and straw mass on soil temperature, soil evaporation, crop growth and development, yield and water use efficiency (WUE) of winter wheat (Triticum aestivum L.) at Luancheng Station on the North China Plain. Soil is a moderately well‐drained loamy soil with a deep profile at the station. Two quantities of mulch were used: 3000 kg ha^?1 [less mulching (LM)] and 6000 kg ha^?1 [more mulching (MM)], representing half and all of the straw from the previous crop (maize). In the control (CK), the full quantity of mulch was ploughed into the top 20 cm of soil. The results showed that the existence of straw on the soil surface reduced the maximum, but increased the minimum diurnal soil temperature. When soil temperature was decreasing (from November to early February the next year), soil temperature (0–10 cm) under straw mulching was on average 0.3°C higher for LM and 0.58°C higher for MM than that without mulching (CK). During the period when soil temperature increased (from February to early April, the recovery and jointing stages of winter wheat), average daily soil temperature of 0–10 cm was 0.42°C lower for LM and 0.65°C lower for MM than that of CK. With the increase in leaf area index, the effect of mulching on soil temperature gradually disappeared. The lower soil temperature under mulch in spring delayed the development of winter wheat up to 7 days, which on average reduced the final grain yield by 5% for LM and 7% for MM compared with CK over the five seasons. Mulch reduced soil evaporation by 21% under LM and 40% under MM compared with CK, based on daily measuring of microlysimeters. However, because yield was reduced, the overall WUE was not improved by mulch.     

玉米秸秆覆盖还田量对免耕土壤有机碳中红外光谱特征的影响

依托位于中国东北黑土地区长期免耕玉米秸秆还田试验平台,分析了不同秸秆还田量(0、33%、67%和100%)连续归还8年后表层(0～5 cm)、中层(20～40 cm)和深层(60～100 cm)土壤有机碳中红外光谱特征,评价了玉米秸秆还田量对免耕土壤碳化学组成和稳定性的影响。结果表明: 与免耕无秸秆覆盖还田相比,33%与100%秸秆还田均有利于表层和中层多糖组分的积累,但前者降低了表层土壤碳组成多样性,而后者有利于各层次土壤碳化学稳定性的维持;67%秸秆还田提高了深层土壤碳化学稳定性。综上,当秸秆资源充足时,免耕结合100%全量秸秆还田可在提高0～40 cm土层微生物可利用碳底物的基础上,维持土壤碳的化学稳定性。秸秆还田量与土壤中红外光谱特征间无线性关联,表明亟需挖掘不同秸秆还田量处理下土壤碳周转的微生物参与机制。     

聚乳酸/聚己二酸-对苯二甲酸丁二酯对土壤细菌群落结构的影响及其降解菌的筛选

【背景】近年来,聚乳酸/聚己二酸-对苯二甲酸丁二酯(polylactide/polybutyleneadipateco-terephthalate,PLA/PBAT)可降解地膜得到了广泛的使用,然而材料使用对土壤微生物的影响却鲜有报道。【目的】以新疆土壤为例,研究PLA/PBAT地膜的使用对土壤中微生物群落结构的影响;并从土壤中筛选可降解PLA/PBAT的菌株,为土壤环境的原位修复提供技术支持。【方法】采用高通量测序的方法对比使用PLA/PBAT地膜前后土壤中细菌群落的结构变化;采用筛选培养基从土壤中分离、鉴定PLA/PBAT的降解菌,通过改变不同培养条件研究菌株降解效果。【结果】使用PLA/PBAT地膜后,土壤中酸杆菌门、芽单胞菌门的相对丰度上升,变形菌门、放线菌门的相对丰度下降,这可能是地膜降解过程中其中间产物对土壤pH及微生物的抑制作用所致;并从土壤中分离出一株PLA/PBAT降解菌XJ11,初步鉴定为Delftiatsuruhatensis,在外加1.5%胰蛋白胨的PLA/PBAT (规格1×1×0.05 cm)筛选培养基中,接种菌液1 mL,在pH为7.2、37°C、130 ...     

Coarse pine bark mulch as open surface cover fails to improve establishment of sown native grasslands

This study was conducted across twelve agricultural locations in south-western Victoria, Australia, encompassing a range of soil types and climatic conditions. It investigated the addition of an open layer of coarse organic pine wood chip mulch (~70% surface cover) directly following direct seeding of native grassland species. The intent was to mimic positive effects of naturally occurring organic surface litter (which are typically depleted in such settings) on seedling emergence and establishment. Findings revealed negative results in that the use of an open layer of coarse pine chip mulch failed to improve native establishment at 12-months or to moderate soil temperature and moisture extremes in comparison to non-mulched plots. This outcome suggests the effectiveness of open surface mulches under the scenario of direct seeding may be highly site context, mulch-type, and application approach dependent. In situations where such mulch applications are not likely to be beneficial, significant costs relating to their purchase and application could be avoided.     

Effect of nitrogen management and soil moisture conservation practices on rainfed wheat (Triticum aestivum L.)

Summary Studies revealed that the application of fertilizer nitrogen brought a significant increase in grain and straw yield of wheat. The significant effect was also noticed on such yield contributing characters like number of effective tillers per metre row length, spike length, and number of grains per spike. The increase of nitrogen level from 40 kg/ha to 80 kg/ha also brought a significant increase in yield and yield contributing characters. The application of entire dose of nitrogen at the time of sowing was as good as its split application. The application of nitrogen also influenced the nitrogen concentration of grains whereas, the other treatments did not influence the nitrogen concentration in grains or straw. The nitrogen treatments did not influence the moisture content of soil. The application of mulch or mulch+Kaolin resulted in significantly higher content of soil moisture in 0–15 cm soil depth as compared to control or Kaolin spray alone which was simultaneously reflected in yield and yield contributing characters.     

耕作和覆盖对黄土高原果园土壤水分和温度的影响

研究了几种不同耕作方式（免耕、旋耕和翻耕）和覆盖措施（覆草、生草和覆膜）对黄土高原果园土壤水分和温度的影响.结果表明：5月不同耕作方式下0～1 m土层土壤水分差异极显著,表现为免耕（14.28%）>旋耕（14.13%）>翻耕（13.57%）,9月差异不明显;不同覆盖措施中,覆草处理的土壤水分最高,且与生草、覆膜、裸地处理间差异极显著;不同耕作方式和覆盖组合处理中以免耕覆草保水效果最好.不同覆盖处理白天土壤平均温度表现为覆膜>裸地>生草>覆草,土壤温度变幅表现为裸地>覆膜>生草>覆草.各覆盖处理的蓄水量与其土壤温度并不都呈负相关,而是由不同覆盖物的保水效果和保温性质共同决定.综上所述,黄土高原果园的保护性耕作体系应以免耕覆草为主.     

华北旱地覆膜春玉米田水温效应及增产限制因子

为探求覆膜栽培春玉米旱作田土壤水温变化特征及其对玉米产量和水分利用效率(WUE)的影响,设计垄作覆膜、垄作裸地、平作覆膜、平作裸地(对照)4个处理的田间试验,对春玉米田各生育时段的土壤温度、土层水分、耗水结构及玉米产量进行了监测.结果表明：自播种到抽雄的生育前期春玉米田覆膜较裸地增温1～3 ℃,土壤积温增加155.2～280.9 ℃;延长生育期约5.9～10.7 d.自播种到成苗期覆膜保水效应显著,WUE较裸地提高81.6%～136.4%.春玉米成苗到拔节期正值该区域稳定干旱期,覆膜处理土壤供水层深达80～100 cm,干旱胁迫使WUE较对照降低17.0%～21.6%,产生奢侈耗水.春玉米小喇叭口期后进入雨季,各处理土体复水,并产生过饱渗漏,最终使收获期土体水分与播期持平,贮水丰富.垄作覆膜较裸地增产9.5%;平作覆膜不利于降水入渗而导致渍水,减产5.0%;垄作裸地与平作裸地差异不显著.以雨季前气象干旱期的土壤枯水与雨季后的土壤库水为特征的春玉米田水分供求时序失衡,限制了春玉米的高产.     

Gravel-sand mulch thickness effects on soil temperature,evaporation, water use efficiency and yield of watermelon in semi-arid Loess Plateau,China

Mulch thickness is one of the important factors affecting soil moisture and temperature. Two field experiments were conducted at Gaolan, Gansu, China, to investigate the influence of gravel-sand mixture mulch thickness on soil temperature, evaporation, evapotranspiration, water use efficiency (WUE) and yield. There were 5 levels of gravel-sand mulch thickness in Experiment 1 (3, 5, 7, 9 and 11 cm; without crop) and 4 levels of gravel-sand mulch thickness plus 80% plastic film mulch in Experiment 2 (3, 5, 8 and 11 cm; cropped to watermelon). There was a close negative relationship between mulch thickness and soil evaporation, with exponential function. Mulch decreased soil evaporation up to a thickness of 7 cm. The soil temperature from 11:00 to 18:00 was slightly lower with mulching compared to no mulching and, as a result, mulch not only decreased the temperature difference between day and night, but also it had a lag. In addition, the peak soil temperature at 5 cm depth was reduced and the soil temperature at night was raised with increased mulch thickness. Mulch had no further effect on soil temperature when thickness is greater than 7 cm. With 80% plastic film mulch, a significant effect on watermelon yield and WUE was detected among the different treatments used in this study, with the highest yield and WUE obtained with the 8 cm mulch thickness treatment. Therefore, 7–8 cm of mulch thickness appears to be the most appropriate option for gravel-sand mulch to sustain high watermelon yield and WUE.     

Synergistic Effects of Organic Contaminants and Soil Organic Matter on the Soil-Water Partitioning and Effectiveness of a Nonionic Surfactant (Triton X-100)

Napthalene- and decane-contaminated soils were treated with Triton X-100 (a nonionic surfactant) to characterize the soil-water partitioning behavior of the surfactant in soils with different organic content. Soil samples with different organic content were prepared by mixing sand-mulch mixtures at different proportions. The experimental results indicated that the amount of surfactant sorbed onto soil increased with increasing soil organic content and increasing surfactant concentration. The effective critical micelle concentration (CMC) also increased with increasing organic content in soil. The CMC of Triton X-100 in aqueous systems without soil was about 0.3 mM and the effective CMC values measured for soil-water-surfactant systems (approximately 1:19 soil/water ratio) with 25%, 50%, and 75% mulch content were 0.9, 1.0, and 1.7 mM, respectively. Sub-CMC surfactant sorption was modeled accurately with both the Freundlich and the linear isotherm. The maximum surfactant sorption onto soil varied from 66% to 82% of added surfactant in the absence of contaminant. The effective CMC values for Triton X-100 increased to some extent in the presence of contaminants, as did the maximum surfactant sorption. The maximum surfactant sorbed onto the soil with 75% mulch content increased from 82% for clean soils, to 95% and 96% for soils samples contaminated with naphthalene and decane, respectively.     

农牧交错带不同耕作方式土壤水分动态变化特征

从耕作方式、覆盖和轮作3个因素系统地对莜麦整个生育期土壤含水量进行了动态的观测研究,结果表明,干旱地区单纯的免耕在提高土壤水分含量上作用不太明显,尤其是降低了表层土壤的含水量,免耕只有在覆盖下,才能真正起到增加土壤水分含量,提高水分利用效率的作用;而对于深松处理,无论是覆盖还是不覆盖,与传统翻耕处理相比,土壤水分均明显提高;同种耕作措施覆盖与无覆盖相比,覆盖处理下土壤含水量明显高于无覆盖处理;说明保护性耕作之所以能够提高土壤水分含量,关键因素在于残茬覆盖;同种耕作方式下轮作种植土壤水分含量与水分利用效率明显高于连作。可以看出,从理论上轮作深松覆盖处理是当地应采用的最佳耕作方式,然而,由于当地缺乏覆盖材料,因此,轮作深松是目前当地最适合的耕作方式。     

Soil Solarization and Gliocladium virens Reduce the Incidence of Southern Blight Sclerotium rolfsii in Bell Pepper in the Field

The timing of solarization with clear plastic mulch in relation to the planting of pepper and the timing of soil amendment with a bran prill formulation of Gliocladium virens were evaluated for the control of southern blight and the survival of sclerotia of the pathogen Sclerotium rolfsii in bell pepper in the field. Solarization during crop growth increased the incidence of southern blight, and G. virens was not effective under the mulch. In addition, pepper yields were low when the soil was solarized during crop growth. In contrast, the solarization of fallow soil in raised beds for 6 weeks prior to crop growth significantly reduced disease incidence in the pepper crop. In addition, in 2 years, G. virens alone reduced southern blight in non-solarized soils and reduced the survival of sclerotia of S. rolfsii to depths of 30 cm at all locations in soil in both years. These data demonstrate two effective biological control strategies for the management of southern blight in the southeastern US.     

农田秸秆覆盖对冬小麦水氮效应的影响

通过田间试验研究了杨凌红油土农田秸秆覆盖条件下冬小麦的水氮效应.结果表明,秸秆覆盖使土壤水分状况明显改善,从而使补充灌水的效果相应减小,氮肥的作用更加突出;无覆盖条件下,水氮交互效应均为负值,而秸秆覆盖时水氮有正的交互作用.旱地秸秆覆盖条件下更应重视养分的投入.无秸秆覆盖条件下小麦取得高产的基础是良好的土壤底墒和充足的氮肥.秸秆覆盖使小麦达到最高产量所需要的灌水量降低,灌水时期后延.不论有无秸秆覆盖,拔节期灌水对冬小麦籽粒产量没有显著影响.