黄土高原半干旱区保护性耕作适应性评价

在黄土高原半干旱区连续4年保护性耕作试验的基础上,利用层次分析法,对5种保护性耕作法与传统耕作法适应性(生态与经济)进行综合评价,探究适合黄土高原半干旱区的保护性农业技术体系.结果表明:在两种轮作次序(小麦/豌豆、豌豆//小麦)、两种投入方式(计秸秆和不计秸秆)下,保护性耕作法免耕秸秆覆盖(NTS)综合适应性指数(PI)均显著高于其他几种耕作方式,且PI在0.76～0.86之间,是传统耕作法(T)的2～2.5倍,NTS在该地区的适应性最强;NTS、免耕不覆盖(NT)、免耕结合地膜覆盖(NTP)3种耕作方式的PI高于传统耕作结合秸秆还田(TS)、T、传统耕作结合地膜覆盖(TP),说明NTS、NT、NTP在该区的适应性优于TS、T、TP.因此,在黄土高原半干旱区实施保护性耕作措施NTS,更能促进该区农业的持续发展.     

保护性耕作对麦-豆轮作土壤有机碳全氮及微生物量碳氮的影响

通过设置在甘肃省定西市李家堡镇的保护性耕作措施长期定位试验,共设4个处理（T：传统耕作;NT：免耕无覆盖;TS：传统耕作＋秸秆还田;NTS：免耕＋秸秆覆盖）,采用春小麦豌豆双序列轮作（即小麦→豌豆→小麦和豌豆→小麦→豌豆,本文中所指春小麦地、豌豆地分别指2008年种植春小麦、豌豆的轮作次序）,于2008年3月中旬对春小麦、豌豆双序列轮作下的土壤有机碳、全氮、土壤微生物量碳及土壤微生物量氮含量进行了采样测定。结果表明,经过7a的轮作后,两种轮作次序下,0-30cm土层中土壤有机碳、全氮、土壤微生物量碳、土壤微生物量氮含量均有在免耕＋秸秆覆盖、传统耕作＋秸秆还田处理较免耕不覆盖、传统耕作处理高的趋势,且其含量均随着土壤深度的增加而降低。其中,土壤微生物量碳含量在两种轮作次序下的排序均为：免耕＋秸秆覆盖（NTS）〉传统耕作＋秸秆还田（TS）〉免耕不覆盖（NT）〉传统耕作（T）;而土壤微生物量氮含量在春小麦地和豌豆地的排序则分别表现为：免耕＋秸秆覆盖（NTS）〉传统耕作＋秸秆还田（TS）〉传统耕作（T）〉免耕不覆盖（NT）和免耕＋秸秆覆盖（NTS）〉传统耕作＋秸秆还田（TS）〉免耕不覆盖（NT）〉传统耕作（T）。同时,微生物量碳、微生物量氮与有机碳和全氮均呈显著正相关,说明提高土壤有机质、全氮含量的保护性耕作模式有利于土壤微生物量碳与氮的积累。     

黄土高原旱地土壤质量评价指标研究

基于设置在陇中黄土高原半干旱区的长期定位试验,运用综合评价模型,定量评价了小麦→豌豆双序列轮作系统6种不同耕作方式对土壤质量的影响。结果表明,采用加权综合法和加乘法则对土壤质量进行综合评价,能够较好地反映土壤质量的实际情况,敏感地反映耕作方式对土壤质量的影响。运用逐步判别分析法对6种不同耕作方式[传统耕作(T)、免耕作(NT)、传统耕作秸秆还田(TS)、免耕秸秆覆盖(NTS)、传统耕作地膜覆盖(TP)、免耕地膜覆盖(NTP)]下29项土壤属性指标进行筛选,建立了包括团粒结构、全氮、速效氮、有机质、蔗糖酶活性、作物产量、种植纯收益和产投比8项因子的简化评价指标体系。原始评价指标体系下2种轮作序列土壤质量指数排序均为NTSTSNTPNTTPT;简化评价指标体系下豌豆→小麦轮作序列土壤质量指数排序为NTSTSNTPNTTTP,而小麦→豌豆轮作序列土壤质量指数排序为NTSTSNTNTPTTP。进一步相关分析和方差分析表明,应用逐步判别分析法建立的简化指标体系具有较高的代表性,可适用于黄土高原半干旱区土壤质量评价。     

基于LSTM神经网络模拟的陇中黄土高原沟壑区保护性耕作下土壤贮水量变化

为分析陇中黄土高原沟壑区不同保护性耕作措施的贮水效果,本研究利用春小麦/豌豆（W/P）、豌豆/春小麦（P/W）轮作的长期定位试验,分别设置传统耕作（T）、免耕（NT）、传统耕作秸秆覆盖（TS）和免耕覆盖（NTS）4种耕作措施,以当地月平均气温、月降水量、月平均辐射量、月平均蒸发量、月作物耗水量为输入因子,以月土壤贮水量为输出,建立基于长短期记忆（Long Short-Term Memory,LSTM）神经网络的土壤贮水量预测模型,并对该模型的有效性进行评估。研究结果表明：1）基于LSTM神经网络建立的土壤贮水量模型对陇中黄土高原沟壑区保护性耕作下土壤贮水量预测具有较好的适用性,模型模拟结果的平均均方根误差为7.76 mm,平均绝对误差为6.95 mm,相对误差控制在-5%~+5%的范围内。2） P/W轮作序列中各处理的土壤贮水量均比W/P轮作序列增加1.09%~1.43%。3）不同轮作序列,NTS处理的贮水效果均优于其他3种耕作措施,在W/P轮作序列中,NTS处理的年均土壤贮水量比T、NT和TS分别增加2.89%、1.70%和2.46%;在P/W轮作序列中,NTS处理的年均土壤贮水量比T、NT和TS分别增加3.03%、1.91%和2.57%。4）不同降水年型,NTS处理的土壤贮水量最高,且干旱年效果更加显著,其中丰水年NTS处理的土壤贮水量比T、NT和TS平均增加2.71%、1.48%和2.19%,而干旱年平均增加3.97%、2.54%和3.64%。5）保护性耕作措施的贮水效果随季节发生变化,作物生长前期（3-5月）保护性耕作措施的贮水优势较为明显,进入作物生长旺盛期（5-6月）保护性耕作措施与传统耕作的贮水效果差异不显著,而作物生长后期（7月）保护性耕作措施较传统耕作土壤贮水量明显增加。基于LSTM神经网络模拟环境下免耕覆盖的贮水保墒效果最好,为陇中黄土高原沟壑区最适宜的保护性耕作措施。     

不同耕作措施对旱地作物生育期农田耗水结构和水分利用效率的影响

陇中黄土高原旱农区降水有限、水分利用效率低下是导致该区作物生产力水平低而不稳的主要原因。发展保护性耕作是保护水土资源、提高水分利用效率的重要途径。为揭示耕作措施影响水分利用效率的机制,2015—2016年在陇中黄土高原旱农区研究了不同耕作措施对土壤棵间蒸发、农田耗水量、作物蒸腾量、棵间蒸发与蒸散的比例、产量及水分利用效率的影响。试验设置传统耕作(T)、免耕秸秆覆盖(NTS)、免耕(NT)、传统耕作+秸秆翻入(TS)、传统耕作+覆膜(TP)、免耕覆膜(NTP)6个处理,春小麦和豌豆年间轮作。结果表明:(1)春小麦和豌豆全生育期棵间蒸发量NTS、TP、NTP比T显著减少6.52%~50.81%,NTS降低棵间蒸发量的作用主要在小麦开花后和豌豆结荚后,地膜覆盖在各个生育时期基本上都显著减少了棵间蒸发。(2)NTS对全生育期耗水量无显著影响,NTP的耗水量只在小麦地显著高于T。相比T,NTS显著提高了小麦开花-收获和豌豆结荚-收获期间的阶段耗水量及其占总耗水的比例。(3)NTS、TP、NTP均显著提高了春小麦和豌豆的蒸腾量,降低了田间的蒸发占蒸散的比例,降低了水分的无效损耗。(4)各年份春小麦和豌豆的产量NTS、TP、NTP比T提高了7.64%~62.79%,水分利用效率比T提高了0.43%~50.88%。因此,在陇中黄土高原旱农区,免耕秸秆覆盖、地膜覆盖等保护性耕作措施均能提高水分利用效率及小麦和豌豆的产量。免耕秸秆覆盖通过降低作物生长后期棵间蒸发量,提高作物生长后期耗水量,降低蒸发与蒸散的比例,从而提高春小麦和豌豆的水分利用效率及产量。而地膜覆盖处理主要是通过减少全生育期棵间蒸发量,增加作物全生育期蒸腾量,降低蒸发与蒸散的比例,从而实现作物水分高效利用,提高作物产量。     

耕作措施对旱农区农田土壤质量与碳排放的影响

依托2001年布设在陇中旱农区的田间定位试验,于2018年研究了传统耕作(T)、免耕(NT)、传统耕作+秸秆还田(TS)和免耕+秸秆覆盖(NTS)对麦豆轮作体系下豌豆田土壤碳排放、土壤质量的影响.研究结果表明:1)NTS处理可以提高黄绵土土壤质量.NTS处理下土壤物理、化学和生物学质量均最高;2)NT、NTS可以减少黄...     

保护性耕作对黄土旱塬箭筈豌豆地土壤呼吸的影响

[目的]揭示保护性耕作对土壤呼吸的影响,为旱区保护性农业的发展提供理论依据。[方法]采用多通道土壤碳通量系统监测传统耕作(T)、传统耕作+秸秆覆盖(TS)、免耕(NT)和免耕+秸秆覆盖(NTS)下箭筈豌豆(Vicia sativa)地的土壤呼吸速率。[结果]各措施下花期呼吸速率比收获期高10.45%~45.09%,NTS处理下土壤呼吸速率最低别比TS,NT和T处理显著减少39.17%,21.37%和30.25%(p0.01)。耕作处理(T,TS)下日均土壤呼吸速率高于免耕处理(NT,NTS)(p0.05)。晴天土壤呼吸变化呈单峰曲线,最大值出现在14:00。耕作下土壤呼吸速率与气温显著线性相关,免耕下(NT,NTS)与气温呈指数关系(p0.01)。不同耕作措施间气温敏感性Q10值大小依次为:T(1.97)NT(1.62)TS(1.58)NTS(1.52)。[结论]免耕加秸秆还田处理对减少温室气体排放有一定的贡献。     

保护性耕作对黄土高原旱地土壤总磷及组分的影响

为了探明保护性耕作对土壤总磷及磷组分的影响,依托在陇中黄土高原旱地区设立的保护性耕作长期定位试验,采用Tiessen土壤磷素分级法,系统研究了传统耕作(T)和5种保护性耕作方式—免耕(NT)、传统耕作秸秆还田(TS)、免耕秸秆覆盖(NTS)、传统耕作地膜覆盖(TP)、免耕地膜覆盖(NTP)下0—5,5—10,10—30cm土层总磷和各磷组分分布特征。结果表明:(1)较之T处理,5种保护性耕作方式均可提高0—10cm土层总磷含量,尤以NTS处理表现最明显,10—30cm土层NTS、TS处理总磷含量显著高于T处理,而NT、NTP、TP处理显著低于T处理;(2)NTS、NTP、NT处理可不同程度地提高0—10cm土层活性无机磷组分Resin—Pi、NaHCO_3—Pi的含量,尤其以NTS、NTP效果最显著,但10—30cm土层NTP处理2种磷组分分别较T处理低39.2%,13.6%;(3)保护性耕作对NaOH—Pi的影响没有明显规律;(4)D.HCl—Pi、C.HCl—Pi和Residual—P对耕作方式的响应不明显;(5)NTS、TS处理可以显著提高0—30cm土层有机磷组分NaHCO_3—Po、NaOH—Po、C.HCl—Po含量,NTP处理也可以提高NaHCO_3—Po和NaOH—Po含量,但该处理下稳定态的C.HCl—Po较T处理低11.5%;(6)各处理总磷和多数磷组分在土壤剖面呈自上而下逐渐递减分布规律,且在10—30cm土层同种覆盖条件下免耕处理的降幅大于耕作处理,无机磷组分Resin—Pi、NaHCO_3—Pi、NaOH—Pi的降幅明显,而有机磷组分NaHCO_3—Po、NaOH—Po的降幅相对较小;(7)Resin—Pi、NaHCO_3—Pi、NaHCO_3—Po对有效磷和作物产量都具有正向作用且贡献较大,免耕秸秆覆盖方式促进3种磷组分积累的效果最明显,从土壤磷素角度看它是最适合本地区农业可持续发展的保护性耕作方式。     

保护性耕作对土壤易氧化和总有机碳的影响

以11年的不同耕作方式的长期试验为基础,在甘肃省定西试验站研究了在两种轮作序列下传统耕作不覆盖(T),免耕+秸秆还田(NTS),免耕+不覆盖(NT)和传统耕作+秸秆覆盖(TS)四种耕作方式对土壤总有机碳和易氧化有机碳的影响。研究结果表明:在两种轮作序列下,种植豆科作物,秸秆覆盖和切碎还田都能增加土壤有机碳总量,其中,切碎还田(TS)效果最为明显;种植豌豆、免耕、秸秆还田等处理都能提高易氧化有机碳含量,其作用的大小为TSNTSNT;与传统耕作相比,秸秆覆盖和免耕均有利于黄绵土表层有机碳和易氧化有机碳的积累,尤其是保护性耕作对0~10 cm土层总有机碳有重要影响。     

耕作方式对黄绵土水稳定性团聚体形成的影响

研究了不同耕作方式对黄绵土水稳性团聚体形成的影响。结果表明,>0.25mm土壤水稳定性团聚体含量:免耕+秸秆覆盖(NTS)>免耕(NT)>传统耕作+秸秆还田(TS)>传统耕作(T),团聚体稳定率:免耕+秸秆覆盖(NTS)>免耕(NT)>传统耕作+秸秆还田(TS)>传统耕作(T)。水稳定性团聚体数量以及团聚体的水稳定性均与耕作方式有关。免耕+秸秆覆盖(NTS)、免耕(NT)和传统耕作+秸秆还田(TS)有利于土壤水稳定性团聚体的形成。分析结果同时说明,采用适当耕作方式的同时增加土壤有机质更有利于土壤团聚体的形成和稳定性的增加。     

秸秆覆盖免耕法

本文阐述了传统耕作法,少耕法和免耕法的基本概念,分析了秸秆覆盖免耕法的原理。夏玉米免耕覆盖种植机械化技术就是应用秸秆覆盖法的原理试验成功的一项科研成果,这项技术由三项作业,六项技术组成,具有节能,省工,增产,增加土壤有机质,改善土壤结构等效益,是对传统耕作法改革的一项新型耕作技术。研制成功的免耕播种机是实现这项技术的关键机具,本文介绍了其工作部件及工作原理。最后指出这项新技术在我国小麦、玉米两熟地区推广应用的意义。     

Physical and mechanical properties of a clayey soil as affected by tillage systems for wheat growth

Abstract

The effect of tillage systems on soil physical properties of a clayey soil was studied. Tillage systems consisting of conventional tillage I (CT₁), conventional tillage II (CT₂), reduced conventional tillage (RCT), reduced tillage (RT) and no tillage (NT) were carried out in autumn after harvest of sugar beet. Significant differences between tillage systems were recorded on the measured properties, apart from moisture content, at 15–30 cm soil layer. The CT₁, CT₂ and RCT systems resulted in similar penetration resistance and bulk density values below the 15 cm soil depth, while the RT and NT systems resulted in higher but similar values. The mean penetration resistance values were less than 1 MPa in the CT₁, CT₂ and RCT systems at the 0–15 cm depth, while they were 1.41, 1.84 MPa in RT and NT, respectively. The mean total porosity increased with tillage from 8.2 to 28% when compared with NT. The CT₁, CT₂ and RCT systems resulted in lower moisture content at the 0–15 cm depth. The lowest moisture content occurred in RCT (24.4%) and the highest in NT (30.9%), while it was 30.3% in RT system. The lowest and highest mean weight diameter values were reported for the RT (1.36 mm) and NT (2.37 mm) systems, respectively. The lowest wheat grain yield was obtained in NT (4.14) and the highest in CT₁ (5.24 Mg ha^?1). A significant difference occurred between only NT and the other systems. When both grain yield and advantages of reduced tillage are considered, the RT system is recommended.     

Nutrient content of maize and soil organic matter status under various tillage methods and farmyard manure levels

Abstract

A two-year field study was conducted under semi-arid conditions in Pakistan to assess the role of tillage systems and farmyard manure on soil, plant nutrients and organic matter content. Four tillage systems (zero, minimum, conventional and deep tillage) and three farm manure levels were used. Maize crop was grown up to maturity. Uptake of N, P and K in maize shoots improved in tillage systems compared to non-tillage and treatments where farmyard manure was applied. Soil N status decreased in the deep tillage systems, whereas it increased in all other tillage systems and in the farmyard manure amended treatments. Increase in soil P values was observed under minimum and conventional tillage, whereas deep tillage resulted in a decrease. Farmyard manure amendments increased soil P and soil K in all systems. Tillage did not affect soil K levels. Results demonstrate that reduced tillage is practicable in arid and semi-arid regions since it improves soil fertility.     

我国南方丘陵区土壤耕作侵蚀的定量研究

通过采用示踪法对四川丘陵区坡耕地的耕作试验研究 ,获得了土壤耕作位移和土壤耕作侵蚀的直接证据 ,确定了耕作侵蚀是四川丘陵区土壤流失的原因之一。试验结果指出 ,四川丘陵区单次耕作的土壤位移量为 43.70～ 6 4.47kg/ m;平均土壤耕作侵蚀速率为 6 5 .0 5～ 97.0 5 t/ hm2 .a。土壤耕作位移受地面坡度的影响十分明显 ,平均位移距离与坡度间呈显著正相关关系。耕作侵蚀速率主要取决于坡体长度 ,只有在坡体长度相同的条件下 ,耕作侵蚀速率才随坡度的增大而增加     

Response of Sunflower to Sulfur Rate and Time of Application under Two Tillage Systems in a Silty Clay Soil of Dera Ismail Khan Pakistan

ABSTRACT

Sulfur (S) availability is a characteristic of conservation tillage. We studied the effects of S on sunflower yield and fatty acid profile under conventional and conservation tillage in silty clay soil of D.I. Khan, Pakistan. Conventional tillage consisted of disk plowing followed by tiller and rotavator, while conservation tillage comprises tiller and disc harrowing. Treatments comprise six sulfur levels (S₁ = 0, S₂ = 20 kg S ha^?1 at sowing, S₃ = 10 kg S ha^?1 at sowing +10 kg S ha^?1 25 days after sowing (DAS), S₄ = 40 kg S ha^?1 at sowing, S₅ = 20 kg S ha^?1 at sowing + 20 kg S ha^?1 25 DAS, and S₆ = 20 kg S ha^?1 at sowing + 10 kg S ha^?1 25 DAS + 10 kg S ha^?1 50 DAS) replicated thrice. After 2 years of experimentation, soil samples were collected (from 0 to 0.30 m depth) for organic matter (OM), total soil N (TSN), and available sulfur analysis. Conservation tillage significantly increased OM, TSN, and S contents in 0–0.30 m soil compared to conventional tillage. Likewise, sunflower plants showed higher achene yield, better fatty acid profile, and net economic returns in conservation tillage than in conventional tillage. Application of 20 kg S ha^?1 at sowing and 10 kg S ha^?1 at each 25 and 50 DAS recorded significantly higher achene yield, higher oil, and linoleic acid contents; however, oleic and oleic/linoleic ratio did not increase with higher S rates. Conservation tillage was effective in increasing OM, TSN, and available S besides increasing yield and economics in silty clay soil.     

紫色土坡地旋耕机耕作侵蚀特征

耕作侵蚀的过程机制和防治技术研究是我国现阶段水土保持科学与技术的重点研究领域,关于小型旋耕机耕作的土壤再分布过程和影响因素研究较少.应用磁性示踪法研究旋耕机等高耕作、向下耕作和向上耕作的土壤再分布模式和强度,查明耕作速度对旋耕机耕作侵蚀的影响.结果表明:不同耕作方向下旋耕机单次耕作过程中均引起土壤同时发生向上坡和向下坡移动,且均导致土壤发生向下坡净位移;不同耕作速度时等高耕作和向上耕作土壤净位移与坡度均呈显著正相关(P＜0.01),而向下耕作二者无显著相关性(P＞0.05);土壤净位移量表现为快挡等高耕作(11.53 kg/m)＞快挡向下耕作(11.40kg/m)＞快挡向上耕作(7.59kg/m)＞慢挡向下耕作(7.33 kg/m)＞慢挡等高耕作(6.87 kg/m)＞慢挡向上耕作(6.29 kg/m);快挡时上下坡交替耕作的耕作侵蚀速率小于等高耕作,但慢挡时二者相当.旋耕机耕作相比传统耕作机具的耕作侵蚀明显下降,其推广应用对于防治紫色土坡地耕作侵蚀和土壤退化有重要作用.     

等高犁耕朝向对紫色土坡面土壤再分布的影响

选择一块坡长15 m、坡度14.16%的坡地,采用磁性示踪法分析等高向下犁耕（向下坡方向翻垈）和等高向上犁耕（向上坡方向翻垈）的土壤再分布特征,利用模拟耕作（15次）检验两种等高犁耕的长期作用下对土壤剖面和微地貌演化的影响。结果表明:等高向下犁耕导致土壤发生向下坡移动,土壤位移量为15.62～28.70 kg/m,坡度对其影响不显著（p=0.93）;等高向上犁耕导致土壤同时发生向下坡和向上坡移动,土壤净位移量为-10.91～8.23 kg/m,坡度对其有显著影响（p < 0.001）,土壤净位移方向随着坡度的增大由向上坡转为向下坡,本研究条件下临界坡度为14%;等高向下犁耕15次后坡顶侵蚀深度是原土层深度的132%,耕作后土层深度与耕作深度相当,表明等高向下犁耕加速土壤侵蚀和促进母岩成土的双重作用共同维持着坡顶土层深度的稳定;等高向上犁耕15次后坡顶土层深度增加了12.7%,表明等高向上犁耕具有保护坡顶土层深度的作用。等高向上犁耕是一种防治类似紫色土的薄层土壤耕作侵蚀和土壤退化的有效措施。     

Comparing soil physical properties from continuous conventional tillage with long‐term reduced tillage affected by one‐time inversion

In addition to various positive aspects, long‐term reduced tillage may cause disadvantages such as increased weed pressure and soil compaction. Thus, single inversion tillage is customarily used for overcoming these drawbacks; however, the effects on the enhanced soil functions are unknown. The main objective of this study was therefore to assess whether improved soil physical properties following long‐term reduced tillage remain after one‐time inversion tillage by mouldboard plough. The study was undertaken on a silt loam field in Lower Saxony, Germany. Since 1996, this field has been subdivided into three treatments; one was managed conventionally using a mouldboard plough (CT), while on the others a chisel plough (RT1) and a disc harrow (RT2) were employed. In October 2014, the entire field was mouldboard ploughed. The following year, four field campaigns were conducted to compare the soil physical properties of the continuously conventional tilled plot with those affected by one‐time inversion tillage (RT1 and RT2). Dry bulk density (DBD), saturated hydraulic conductivity (Ks) and infiltration rate [K(h)] were analysed in untrafficked and trafficked areas in each plot. There were clear differences between CT and RT. At all sampling dates, both RT plots had higher Ks and K(h) compared with CT. These differences also occurred to some extent on the trafficked areas. This suggests that improved soil hydraulic properties remained after one‐time inversion tillage of a long‐term reduced tilled field. Thus, one‐time inversion tillage may offer a suitable measure for overcoming some of the main disadvantages associated with long‐term reduced tillage, while preserving the positive effects on soil physical properties.     

重庆中梁山岩溶区耕作侵蚀影响因素研究

在重庆市中梁山岩溶区用示踪法对坡耕地进行耕作试验研究。结果表明:锄头和铁锹耕作引起的土壤位移距离、位移量与坡度呈正相关,而踩锹引起的土壤位移距离、位移量则与含水量具有一定的相关性。在顺坡耕作时铁锹引起的土壤位移距离、位移量与锄头相近,但它们远远大于踩锹;等高耕作时铁锹引起的土壤位移距离、位移量是锄头的1.3~3.8倍左右。铁锹顺坡耕作引起的土壤位移距离、位移量是它等高耕作的2~2.4倍;锄头顺坡耕作引起的土壤位移距离、位移量是它等高的3~8.8倍。引起土壤位移量的大小顺序依次是:锄头顺坡>铁锹顺坡>铁锹等高>锄头等高>踩锹顺坡。     

旱地玉米保护性耕作机具与作业工艺的组合研究

多年保护性耕作试验取得了保墒增产的明显效果,但也暴露出播种质量不高等问题,仅靠改进机具已难以解决。１９９６年开始增加表土耕作进行配套试验。通过对不同试验处理的秸秆覆盖率、地温、土壤含水量、出苗率和作物产量对比,初步得出增加表土耕作组合方案可以调控地表秸秆覆盖量、改善地面状况、提高地温、保苗增产。在我国北方,干旱低温,秸秆不易腐烂,逐年积累,故应该把表土耕作列为保护性耕作体系的重要内容,只有把作业工艺选择与播种机性能改进结合,才能更有效地解决免耕播种质量不高的问题。