烯效唑浸种对干旱胁迫下工业大麻幼苗形态、渗透调节物质及内源激素的影响

选用0.4 mg·L~(-1)的烯效唑(S_(3307))浸种工业大麻"火麻一号"种子,采用盆栽试验方法,于大麻三叶期设置清水浸种后正常供水(CK)、清水浸种后干旱胁迫(D)和烯效唑浸种后干旱胁迫(D+S)3个处理,探讨烯效唑浸种对干旱胁迫下工业大麻幼苗形态、渗透调节物质及内源激素的影响。结果表明:与D处理的植株相比,D+S处理显著提高了根系干、鲜重,分别提高46.67%～61.54%和16.46%～25.53%;恢复了胁迫后期的地上部干、鲜重,复水4 d后地上部干、鲜重较D处理分别提高了4.38%和2.23%;促进了根系生长的能力,干旱胁迫8 d后,D+S处理较D处理根长、根表面积、根体积、根总投影面积、分枝数、交叉数和根尖数分别增加了34.48%、34.77%、69.10%、70.00%、29.62%、54.28%和33.07%;提高了幼苗叶片SPAD值,降低了细胞膜透性,增加了可溶性糖和可溶性蛋白含量,干旱胁迫8 d后D+S处理较D处理SPAD值增加了28.30%,细胞膜透性减少了17.22%,可溶性糖和可溶性蛋白含量分别增加了17.32%～36.78%和5.07%～7.94%。干旱胁迫8 d后,D+S处理使工业大麻叶片中脱落酸(ABA)含量增加了1.02倍,水杨酸(SA)和茉莉酸(JA)含量分别降低了17.79%和14.40%。可见,烯效唑浸种能通过调控工业大麻幼苗生长及生理指标来增强其抗旱能力,缓解干旱胁迫对幼苗造成的伤害。     

Modelling Wheat Stomatal Resistance in Hourly Time Steps from Micrometeorological Variables and Soil Water Status

An accurate estimation of stomatal resistance (r_S) also under drought stress conditions is of pivotal importance for any process‐based prediction of transpiration and the energy budget of real crop canopies and quantification of drought stress. A new model for r_S was developed and parameterized for winter wheat using data from field experiments accounting for the influences of net radiation (R_Net), air temperature (T_Air) and vapour pressure deficit of the atmosphere (VPD) interacting with an average water potential in the rooted soil (ψ_RootedSoil). r_S is simulated with a limiting factor approach as maximum of the metabolic (related to photosynthesis) and hydraulic (related to drought stress) acting influences assuming that, if drought stress occurs, it will dominate stomatal control: r_S = max(r_S(T_Air), r_S(R_Net), r_S(VPD, ψ_RootedSoil)). This transitional approach is suited to reproduce measured daily time courses of r_S with a varying accuracy for the single measurement dates but performed satisfactorily for the whole data set (r² = 0.63, RMSE = 59 s m^?1, EF = 0.60). This new semi‐empiric approach calculates r_S directly from external environmental conditions. Therefore, it can be easily implemented in existing model frameworks as link between operational crop growth models that use the concept of radiation use efficiency instead of mechanistic photosynthesis modelling and soil–vegetation–atmosphere transport models.     

Drought Tolerance and Water Use of Cereal Crops: A Focus on Sorghum as a Food Security Crop in Sub‐Saharan Africa

Sub‐Saharan Africa (SSA) faces twin challenges of water stress and food insecurity – challenges that are already pressing and are projected to grow. Sub‐Saharan Africa comprises 43 % arid and semi‐arid area, which is projected to increase due to climate change. Small‐scale, rainfed agriculture is the main livelihood source in arid and semi‐arid areas of SSA. Because rainfed agriculture constitutes more than 95 % of agricultural land use, water scarcity is a major limitation to production. Crop production, specifically staple cereal crop production, will have to adapt to water scarcity and improved water productivity (output per water input) to meet food requirements. We propose inclusion and promotion of drought‐tolerant cereal crops in arid and semi‐arid agro‐ecological zones of SSA where water scarcity is a major limitation to cereal production. Sorghum uniquely fits production in such regions, due to high and stable water‐use efficiency, drought and heat tolerance, high germplasm variability, comparative nutritional value and existing food value chain in SSA. However, sorghum is socio‐economically and geographically underutilized in parts of SSA. Sorghum inclusion and/or promotion in arid and semi‐arid areas of SSA, especially among subsistence farmers, will improve water productivity and food security.     

Improved Cold and Drought Tolerance of Doubled Haploid Maize Plants Selected for Resistance to Prooxidant tert‐Butyl Hydroperoxide

To improve the abiotic stress tolerance of maize (Zea mays L.), doubled haploid (DH) plants were produced by in vitro selection of microspores exposed to tert‐butyl hydroperoxide (t‐BuOOH) as a powerful prooxidant This study investigated the tolerance of the progenies of t‐BuOOH‐selected DH lines to oxidative stress, cold and drought in controlled environment pot experiments by analyses of photosynthetic electron transport and CO₂ assimilation processes, chlorophyll bleaching and lipid peroxidation of leaves. Our results demonstrated that the t‐BuOOH‐selected DH plants exhibited enhanced tolerance not only to oxidative stress‐induced by t‐BuOOH but also to cold and drought stresses. In addition, they showed elevated activities of antioxidant enzymes such as superoxide dismutase, ascorbate peroxidase, catalase, glutathione reductase and glutathione S‐transferase when compared with the DH lines derived from microspores that were not exposed to t‐BuOOH and to the original hybrid plants. The results suggest that the simultaneous up‐regulation of several antioxidant enzymes may contribute to the oxidative and cold stress tolerance of the t‐BuOOH‐selected DH lines, and that the in vitro microspore selection represents a potential way to improve abiotic stress tolerance in maize.     

菠萝灌溉施肥技术研究进展

季节性干旱是限制菠萝增产提质增效的重要原因,发展“以水促肥,以肥促产,水肥高效耦合”的现代灌溉施肥技术,是应对季节性干旱,促进菠萝增产提质增效的重要途径。本文从华南地区季节性干旱时空分布特征、干旱胁迫对菠萝生长发育的影响、我国菠萝水肥管理现状、灌溉施肥技术对菠萝生长发育的影响等4个方面简要阐述了我国菠萝灌溉施肥技术发展的必要性,重点从现代灌溉施肥方式、耗水规律和养分吸收规律等3方面总结了菠萝灌溉施肥技术研究进展,并结合研究进展提出我国菠萝灌溉施肥技术目前存在的问题,探讨未来可能的研究重点和发展方向,为菠萝灌溉施肥技术的研究与应用提供参考。     

芝麻不同生育阶段需水特性与干旱灌溉应用研究

探讨芝麻不同生育阶段需水特性与干旱灌溉水分生产效率,为芝麻高产栽培的合理灌溉和水分管理提供科学依据,2013-2018年在安徽、新疆等不同地域,选用6个芝麻主栽品种,开展芝麻不同生育阶段需水特性和灌溉水利用研究。结果表明：盆栽芝麻的全生育期蒸腾需水量平均为283.59mm,品种间差异大,形成100kg芝麻籽粒蒸腾需水量为263.56mm(175.7t/666.7m²),苗期、蕾期、初花期、盛花期、终花期、成熟期的蒸腾需水量分别为18.76mm、21.91mm、21.03mm、149.28mm、71.21mm和34.79mm,蒸腾模系数为5.89%、7.21%、6.85%、47.07%、23.93%和9.05%；盛花期最大,出苗期最小。池栽芝麻全生育期需水量531.36mm,其中株间蒸发量、蒸腾量分别占全生育期需水量的46.1%和53.9%；株间蒸发量最大的时期为苗期；蒸腾量最大的时期为花期。芝麻苗期、花期和成熟期需水模系数平均为18.65%、66.79%和14.56%。合肥基地出苗期、临泉基地花期遇旱喷灌,水分生产效率高达0.61kg/m³和0.65kg/m³；新疆精河基地按需滴灌处理比传统滴灌方式的水分生产效率提高43.28%,节水19.61%,这对水资源匮乏的新疆干旱区来说意义重大。芝麻需水量与栽培条件、品种、气温(r＝0.99)等密切相关。在芝麻不同生育阶段遇旱灌溉是提高水分生产效率和产量的关键措施之一。     

不同播期夏播小豆产量性能动态指标与光温水效应

为探讨光、温、水等气象因子对夏播小豆产量的影响，达到合理利用气象资源、进一步挖掘小豆增产潜力的目的，以中晚熟小豆品种花小豆（V₁）和中早熟品系德红5261（V₂）为材料，设T₁（6月17日）、T₂（6月22日）、T₃（6月27日）、T₄（7月2日）和T₅（7月7日）5个播期，形成不同的光、温、水生长环境，对夏播小豆产量性能指标和光、温、水因子效应及气象因子资源量在小豆生育前期与后期的比值（分配率）进行测定和分析。结果表明，小豆产量、单株荚数和单株粒重随播期推迟先增加后逐渐降低，各播期的大小依次为：T₂>T₁>T₃>T₄>T₅，品种间产量差异极显著，V₂>V₁，每荚粒数和百粒重受播期影响较小；随着播期的推迟，小豆的生育天数、平均叶面积指数、总光合势逐渐减小，但收获指数相应增加。光、温、水因子对产量性能指标有明显的正负调节效应，V₁生育前期有效积温与产量、平均叶面积指数、生育天数、总光合势和平均作物生长率呈极显著正相关，与收获指数和平均净同化率呈极显著负相关；生育前期降水量与单位面积荚数呈极显著正相关；生育前期日照时数与平均叶面积指数、总光合势和平均作物生长率呈极显著正相关，与平均净同化率呈极显著负相关；生育后期有效积温与平均作物生长率呈显著正相关；生育后期日照时数与总光合势呈显著正相关。V₂生育前期有效积温与产量、单位面积荚数、平均叶面积指数、总光合势和平均作物生长率呈极显著正相关，与收获指数呈极显著负相关；生育前期降水量与平均叶面积指数和平均作物生长率呈显著负相关；生育前期日照时数与生育天数和总光合势呈极显著正相关，与产量呈显著正相关，与收获指数和每荚粒数呈极显著负相关；生育后期有效积温与平均叶面积指数、生育天数和总光合势呈极显著正相关，与收获指数、每荚粒数和百粒重呈极显著负相关；生育后期降水量与平均作物生长率呈极显著正相关。对气象因子资源量分配与小豆产量进行回归分析，得出不同小豆品种获得最高产量的最佳光、温、水资源量在生育前、后期的比值（分配率）及其组合，V₁为：生育天数1.86、有效积温2.27、降水量49.73、日照时数1.45；V₂为：生育天数1.45、有效积温1.49、降水量1.57、日照时数0.98。在德州地区，夏播小豆选用中早熟品系V₂在6月20日前后播种，生育期内光、温、水资源量的分配率及其组合最佳，可获得较高的产量。     

开封市公共气象服务发展探讨

公共气象服务是为政府决策、民生发展提供的一项基础性公共事业。该文通过阐述开封市公共气象服务发展的现状,对比国内气象服务工作,分析其中存在的问题,以充分发挥气象服务的社会效益、经济效益。     

Root architecture of sorghum genotypes differing in root angles under different water regimes

Plant root architecture offers the potential for increasing soil water accessibility, particularly under water-limited conditions. The objectives of this study were to evaluate the root architecture in two genotypes of sorghum (Sorghum bicolor (L.) Moench) differing in root angles and to assess the influence of different deficit irrigation regimes on root architecture. The response of two sorghum genotypes, ‘Early Hegari-Sart’ (EH; steep root angle) and ‘Bk7’ (shallow root angle) to four irrigation treatments was investigated in two replicated outdoor studies using large pots. The results indicated that EH possessed steeper brace and crown root angles, fewer brace roots, greater root biomass, and root length density than Bk7 at deeper soil depths (i.e., 15–30 and 30–45 cm) compared with a shallower depth (i.e., 0–15 cm). Across the soil profile, EH had greater root length density and length of roots of small diameter (<1 mm) than Bk7. Accordingly, EH showed more rapid soil-water capture than Bk7. Different levels of irrigation input greatly affected root architecture. Severe deficit irrigation (25% of full crop transpiration throughout the season) increased the angle and number of crown roots, root biomass, and root length density compared with 75 and 100% of full crop transpiration treatments. Consequently, root system architecture can be effectively manipulated through both genotypic selection and irrigation management to ensure optimal performance under different levels of soil available water.     

Analysis of residuals for stability assessment of rice genotypes

The analysis of residuals computes general adaptabilities (GAs) and specific adaptabilities (SAs) of genotypes similar to combining ability analysis. The residual analysis is simple and robust being based on the first-degree statistics, and is assumption-free. A unique statistic of ratio of variances (VR) of residuals for individual genotypes allows comparing their stability. The residuals analysis of genotype × environment (GE) interactions was performed for grain yield (t ha^?1) of 25 rice (Oryza sativa L.) genotypes, including two developed by marker-assisted selection for root traits quantitative trait loci (QTL), tested across 16 sites. Results were compared with the linear regression analysis for (i) full set of 16 sites showing adequacy of linear model and (ii) subset of nine-poor sites showing inadequacy of linear model. There was agreement between the two analyses for situation (i) but not for situation (ii) when the regression analysis fails because of nonlinearity but the residual analysis retains its validity.