旱作滴灌铺膜播种农机化技术集成与应用

为解决因水资源缺乏导致的粮食减产问题,开原市大力推广旱作滴灌铺膜播种农机化技术。详细介绍该技术的主要内容、关键环节及培训情况,并综合分析该技术的经济效益、社会效益和生态效益,为该技术在开原市推广应用提供有益借鉴。     

不同微灌方式下水分调控对猕猴桃光合特性及产量的影响

【目的】为了研究不同微灌方式下水分调控对猕猴桃叶片光合特性及产量的影响,以"翠玉"猕猴桃为研究试材。【方法】采用小管出流(X)、微喷灌(P)和滴灌(D)3种灌溉方式在猕猴桃全生育期实施85%灌水量的轻度亏水(LD)、70%灌水量的中度亏水(MD1)、55%灌水量的偏重度亏水(MD2)和40%灌水量的重度亏水(SD)处理,并设置100%灌水量的对照组(CK),研究了猕猴桃叶片胞间CO2摩尔分数(Ci)、净光合速率(Pn)、气孔导度(Gs)、蒸腾速率(Tr)、羧化速率(CE)、瞬时水分利用效率(WUEi)、产量及产量水分利用效率(WUEET)在不同水分亏缺下的变化。【结果】与CK相比,D-MD1处理的日均WUEi及CE分别提高了8.5%和2.7%。P-MD1处理的日均Pn与CE较CK分别提高了10.7%和10.4%,X-MD1处理的日均Ci、Pn、CE较CK分别提高了10.9%、12.2%和11.4%。D、P和X三个处理的WUEET均较CK有不同程度的提高,但D、P和X的产量随着水分的亏缺程度的加大而下降,而滴灌各处理间无显著性差异。与CK相比D-MD1、P-MD1、X-MD1处理的产量分别提高了1.4%、1.6%、2.3%,重度亏水处理的产量显著低于其余水分处理,且其他各处理间无显著性差异。MD1处理在不降低产量的情况下,可以节约灌水同时提高WUEET,重度亏水与偏中度亏水间在WUEET无显著性差异,同时X-MD1的产量均高于其他处理。【结论】X-MD1处理是"翠玉"猕猴桃较为合适的灌溉水分亏缺模式。     

大棚蔬菜滴灌系统案例设计与分析

选取大棚蔬菜种植园为实例,根据当地的水文地质特征、水源条件、大棚分布以及蔬菜种植结构,详细计算并校核了滴灌系统的总体分布、灌溉均匀度、允许灌溉强度、设计湿润比、灌水器选择、毛管极限长度等设计标准参数。通过灌溉制度的制定,计算各级管道管径、水头损失,选择过滤器,确定水泵型号,完成了滴灌系统的整体设计。该滴灌设计案例分析过程详细,结果合理,可作为相关滴灌工程设计参考依据。     

基于土壤水分下限的宁夏枸杞滴灌灌溉制度试验研究

以宁杞7号枸杞为研究对象,在宁夏同心县开展2 a田间试验.设置4个关键控水期、3个控水水平共8个处理,研究枸杞不同生育期不同水分下限条件下根区土壤含水率、叶片光合生理指标、产量与品质变化;分析其耗水规律与水分利用效率,提出基于土壤水分下限的宁夏枸杞滴灌灌溉制度.结果表明:不同水分处理枸杞根区20~60 cm土层土壤含水率最大;叶片气孔导度随土壤下限升高而增大,高水分下限处理的蒸腾速率相对较大,叶片水分利用效率则相反;生育期耗水量随土壤水分下限升高而增大,2 a增幅分别为10.8%和12.8%,平均耗水量为386.6~463.2 mm,夏果期耗水量最大且差异具有统计学意义,是关键需水期.2 a均为处理S5的产量最大分别为2 208.15和2 571.30 kg/hm²,水分利用效率最高为0.39 kg/m³;水分处理对蛋白质含量影响差异不具有统计学意义,低土壤水分下限的枸杞多糖含量相对较高;全生育期分为6个灌水期,其中萌芽期灌水(春水)为375 m³/hm²;春梢生长期、花期、夏果期、秋果期的土壤质量含水率下限分别为50%θ_f(θ_f为田间持水率),65%θ_f,65%θ_f,55%θ_f,而上限为95%θ_f;休眠期冬灌量为450 m³/hm².     

振捣提浆与侧深施肥技术模式对寒地水稻产量性状及肥水效率的影响

为解决北方寒地传统搅浆平地耕作模式造成稻田泡田灌溉水量大和肥料利用效率低等问题,于2018—2019年以稻田水整地环节振捣提浆机与侧深施肥机为材料,采用2种耕整地模式和2种施肥模式的正交试验设计：搅浆平地耕整地模式(WPF)、振捣提浆耕整地模式(VEP)、基肥撒施模式(CFA)和侧深施肥模式(SDF),分析振捣提浆+侧深施肥技术模式对泡田期灌水量、干物质积累量、产量指标、肥料利用率及经济效益的影响。结果表明：与常规搅浆平地耕整地+基肥撒施(WPF+CFA)相比,搅浆平地耕整地+侧深施肥(WPF+SDF)、振捣提浆耕整地+基肥撒施(VEP+CFA)和振捣提浆耕整地+侧深施肥(VEP+SDF)3种技术模式对水稻泡田灌溉量、产量性状、肥料利用效率和经济效益均产生显著的影响,以VEP+SDF增幅最大,WPF+SDF次之,VEP+CFA最小。与WPF+CFA相比,VEP+SDF模式能显著提高肥水效率,节约泡田灌溉水11.4%,减少肥料施用量10%,产量和经济效益分别提高7.3%和1628.7元/hm²。本研究表明,VEP+SDF模式显著改善肥水利用效率,提高植株产量和经济效益,是北方寒地水稻较为理想的机械化整地施肥技术模式。     

不同施氮量下覆膜滴灌玉米相对根长密度模型研究

为探明施氮量对宁夏引黄灌区覆膜滴灌玉米根长密度(RLD)的影响,设置5个施氮水平和1个对照(CK,不施氮与不覆膜)进行试验,测定玉米RLD,建立不同施氮量下相对根长密度(NRLD)模型,并加以检验。结果表明:不同施氮处理的玉米RLD分布区域均随土层深度的增加而减小,且大部分集中在0～20 cm土层;随着施氮量的增加,RLD分布区域明显扩大; NRLD分布满足三阶多项式函数模型,模拟曲线的决定系数R2为0.951,模型检验结果R2为0.845,均方根误差(RMSE)为0.248,拟合效果好,但该多项式模型不能保证NRLD在相对取样深度Zr为1时达到0,故对玉米NRLD分布多项式模型进行优化。优化模型验证结果显示,各施氮处理RMSE不大于0.308,CK、N0、N1、N2、N3和N4处理的标准化均方根误差分别为0.242、0.193、0.184、0.226、0.208和0.273,R2分别为0.903、0.953、0.920、0.944、0.962和0.898,具有较高的拟合度,解决了NRLD在Zr=1时达到0的问题。本研究可为宁夏引黄灌区膜下滴灌玉米NRLD分布拟合、根系养分吸收和施肥管理提供理论参考。     

不同灌水下限设施番茄土壤CO2排放特征及其影响因素研究

【目的】探讨不同灌水下限设施土壤CO2排放特征及其影响因素,为调控设施土壤水分和碳排放提供理论依据。【方法】在番茄生育期内采用LI-8100A土壤碳通量自动测定仪观测不同灌水下限[20 kPa(D20)、30 kPa(D30)、40 kPa(D40)]下的土壤CO2排放速率,并分析其影响因素。【结果】在番茄生育期内,不同灌水下限设施土壤CO2排放速率变化趋势基本一致,D20处理最高,平均速率为2.759μmol/(m2·s),其次是D30处理,为2.601μmol/(m2·s),D40处理最低,为2.559μmol/(m2·s)。在土壤CO2累积排放量方面,D20处理显著高于其他2个处理,而D30和D40处理之间无显著差异。就单因素模型而言,不同灌水下限处理的土壤CO2排放速率与15 cm土壤温度呈指数回归关系,且均达显著水平(P<0.05);不同灌水下限处理的土壤CO2排放速率与15 cm土壤含水率均呈显著二次回归关系(P<0.05);与单因素模型相比,土壤温度和土壤含水率的双因素复合模型(68.5%~83.8%)可以更好地解释土壤CO2排放的变化。土壤温度敏感系数Q10值在1.442~1.498之间,其中D20处理最敏感,D40处理最不敏感。相关分析结果表明,土壤CO2累积排放量与0~20 cm土层土壤有机质量、pH值、全氮量、速效磷量、速效钾量、碱解氮量和微生物量碳呈显著相关关系。采用PCA分析提取出的2个主成分累积贡献率为85.79%。【结论】灌水下限影响设施土壤CO2的排放,其中D20处理促进了设施土壤CO2的排放。     

Energy use efficiency of deficit-irrigated silage maize in different soil tillage practices on a high plain with a semi-arid climate

ABSTRACT

Energy requirement increases rapidly in agriculture due to the increase in mechanization. The aim of the present study is to evaluate the energy use efficiency of silage maize under three different tillage practices (conventional, reduced, no-tillage) combined with four different irrigation levels (full and three deficit irrigations). The no-tillage and reduced tillage practices provided savings in input energy at the rate of 17.4 and 9.1%, respectively compared to the conventional tillage. The highest silage yields in all irrigation levels were obtained in the no-tillage practice. Therefore, in full and deficit irrigated silage maize, the highest energy ratio, energy productivity and net energy and the lowest specific energy values were manifested in the no-tillage practice. Energy rates in the no-tillage practice were higher by 34.2 and 22.9% than the conventional and the reduced tillage practices, respectively. Moreover, the direct and non-renewable energy requirements were the lowest in the no-tillage practice. In conclusion, the fully-irrigated no-tillage practice can be recommended to obtain the highest energy use ratio and productivity. However, no-tillage irrigated with up to 50% less water amount could be a better alternative for areas with a water shortage by improving the energy use ratio with better water and fuel savings.     

Compatibility of root growth and tuber production of potato cultivars with dynamic and static water‐saving irrigation managements

The important root characteristics of root length density (RLD) and root mass density (RMD) generally differ among irrigation managements and potato cultivars. The objective of this study was to investigate the RLD and RMD variations and their functional relationships with gross potato tuber yield for two commercial potato cultivars, Agria and Sante, under different irrigation strategies. Full irrigation and water‐saving irrigation strategies, deficit and partial root drying irrigations, were applied statically (S) and dynamically (D) based on daily crop evapotranspiration. Results showed that SPRD had significantly greater RLD (3.64 cm/cm³) and RMD (132.7 μg/cm³) than other irrigation treatments. Between the potato cultivars, Agria had significantly larger values of RLD (3.50 cm/cm³) and RMD (138.7 μg/cm³) than Sante. The functional relationship between the root growth characteristics and tuber yield showed that under water‐saving irrigations, Agria increased root mass at the expense of gross tuber yield but Sante increased root mass to maintain larger gross tuber yields. However, Agria produced more roots and gross tuber yield than Sante, and it is concluded that Agria is a more drought‐tolerant potato cultivar, which is recommended for tuber production in regions where water might be scarce. It was shown that larger root production in potatoes was associated with improved tolerance to water stress.     

干湿交替灌溉对抗旱性不同水稻品种产量的影响及其生理原因分析

【目的】旨在阐明全生育期干湿交替灌溉对抗旱性不同水稻品种产量的影响。【方法】以抗旱性差异显著的4个水稻品种(籼稻扬稻6号和两优培九,粳稻旱优8号和镇稻88)为材料,以常规水层灌溉(CI)为对照,在盆栽条件下研究了轻干湿交替灌溉(WMD)和重干湿交替灌溉(WSD)对水稻产量、根系、叶片及籽粒部分生理特性的影响。【结果】与CI相比,WMD处理下抗旱性较强品种扬稻6号和旱优8号产量分别提高6.90%和7.45%,抗旱性较弱品种两优培九和镇稻88产量分别降低7.28%和8.10%。WSD处理下,4个水稻品种的产量均显著下降,抗旱性较弱的品种产量降幅远高于抗旱性较强的水稻品种。WMD处理下,扬稻6号和旱优8号复水后根系氧化力、根系与叶片细胞分裂素(玉米素+玉米素核苷)含量、叶片光合速率和籽粒中蔗糖-淀粉代谢途径关键酶的活性均较CI有不同程度提高,而两优培九和镇稻88上述指标则与CI持平或有不同程度降低。WSD处理下,4个品种上述指标均较CI不同程度降低。【结论】轻干湿交替灌溉条件下,根系活性强、叶片细胞分裂素含量和光合速率高、籽粒中蔗糖-淀粉代谢途径关键酶活性强是抗旱性较强水稻品种的基本生理特征。