秸秆覆盖对冬小麦农田土壤有机碳及其组分的影响

通过对黄土高原旱塬区冬小麦地4种覆盖方式下(无覆盖对照处理(CK)、全生育期9 000kg/hm~2秸秆覆盖(M1)、全生育期4 500kg/hm~2秸秆覆盖(M2)和夏闲期9 000kg/hm~2秸秆覆盖(SM))土壤的田间定位试验和室内分析,探讨不同秸秆覆方式对冬小麦地土壤有机碳及其组分含量以及各组分之间相关性的影响。结果表明:(1)较CK(无覆盖对照)处理,M1(全生育期9 000kg/hm~2)、M2(全生育期4 500kg/hm~2)和SM(夏闲期9 000kg/hm~2)处理,均显著增加0—10cm和10—20cm土层的土壤有机碳、微生物量碳、潜在矿化碳和颗粒有机碳含量(p0.05),而20—40cm土层差异不明显,其中M1(全生育期9 000kg/hm~2)处理效果最佳,SM(夏闲期9 000kg/hm~2)处理作用相对较弱。(2)不同覆盖方式影响土壤微生物量碳、潜在矿化碳和颗粒有机碳在总有机碳中的分配比例,土壤微生物量碳、潜在矿化碳和颗粒有机碳的相对含量变化范围分别为1.96%~3.31%,2.83%~3.78%,18.13%~37.25%。(3)各覆盖方式下土壤有机碳及其组分含量都随着土层的逐渐深入而下降,且土层越深,变化越趋于缓慢。(4)不同覆盖方式下的土壤有机碳及其组分含量两两之间均达到了极显著正相关关系(p0.01),颗粒有机碳、微生物量碳和潜在矿化碳与土壤有机碳的相关系数依次为:0.847,0.700,0.614,可见微生物量碳、潜在矿化碳、颗粒有机碳含量在一定程度上决定于土壤有机碳的贮存量。综上所述,秸秆覆盖对土壤有机碳及其组分含量具有增加效应,全生育期9 000kg/hm~2秸秆覆盖方式实际运用价值较高。颗粒有机碳和微生物量碳的动态变化更能反映土壤有机碳的早期变化,是土壤肥力变化更加敏感的指标。     

青枯劳尔氏菌潜在新寄主鉴定与青枯病防治策略的思考

为了充分发挥农业措施管理,合理轮套作技术在防治农作物青枯病的作用,结合云南当地农业生态实际情况,采用分离自雪莲果青枯病植株上的青枯劳尔氏菌,在28℃温室条件下,遵循柯赫氏法则,接种、分离、再接种和再分离该病菌,完成了植物病害验证过程。结果表明：在接种后,杜氏鼠尾草、曼陀罗和鸭趾草等3种昆明地区田间常见杂草均出现青枯病典型症状,首先在接种部位出现黑色病斑,继而植株萎蔫,并有大量的乳白色菌脓溢出。结合在自然界下尚未发现这3种杂草感染青枯病和在根部有青枯劳尔氏菌富集的研究结果,这3种杂草被推断为青枯劳尔氏菌的潜在寄主。本研究结果对农作物青枯病防治策略有重要指导意义。     

重庆市南岸区农村居民点整理潜力研究

为得出重庆市南岸区农村居民点整理潜力,对农村集体建设用地流转提供客观依据以及农村居民点用地管理提供理论支撑。采用人均农村居民点建设用地标准测算法对至2020年农村居民点整理潜力进行测算,然后采用闲置宅基地抽样调查法对其进行修正,获得农村居民点整理潜力。根据整理潜力和南岸区实际情况,对农村居民点合理布局进行了规划,并制作2020年重庆市南岸区农村居民点用地分布图。     

江苏省宜农未利用地开垦土壤改良模式研究

系统分析了江苏省主要宜农未利用地类型、分布及其开垦的土壤障碍因素,探究了土壤改良的工程措施、农艺措施、生化措施及其作用,研究提出了荒草地和沿海滩涂2种主要宜农未利用地开垦的土壤改良模式,注重了各种改良措施的综合运用,对于合理制定江苏省宜农未利用地开垦土壤改良方案,提高土地开垦的质量,实现江苏省耕地总量动态平衡具有重要的指导意义。     

陕北农牧交错带牧草生产力分析

根据陕北农牧交错带的生态环境特点以及牧草生长发育过程对水热资源的要求和利用效率,运用迈阿密模型定量估算陕北农牧交错带七县区牧草自然生产力。并与牧草现实生产力进行比较。研究表明:陕北农牧交错带牧草现实生产力仅为自然生产力的30.80%。基本掌握了该区牧草生产力状况和特点,并据此提出了相应的开发战略和实施途径。     

玉米人工合成群体产量相关性状选择潜势及杂种优势模式分析

采用NCⅡ遗传交配设计 ,以分属于不同杂种优势群的 6个自交系做测验种 ,与 6个合成群体组配成 36个组合。结果表明 :单株产量的GCA以LBM最高 ,其次为WBM ,从株型、穗型性状的SCA分析合成群体与自交系组成了 9个优良杂种优势模式。单株产量最高的组合为HZ85×WBM ,其均值为 10 8 75g。通过对优良杂优模式内的变异参数估计 ,在群体内有丰富的变异个体 ,具有很强的选择潜势。组合内个体产量分布以及出现的频率对选系和轮回选择具有明确的指导意义。人工合成群体具有丰富的遗传变异 ,分属于不同的杂种优势类群 ,具有多元种质的特性。作为选系和轮回选择群体 ,具有明显的选择潜势     

冬小麦叶片水势、气孔阻力、蒸腾速率与环境因素的关系

本文依据田间试验资料,分析了冬小麦叶片水势、气孔阻力和蒸腾速率在不同土壤基质势条件下的日变化规律,探讨了其与土壤基质势和天气条件(光照强度、净辐射、饱和差、气温)之间的关系,建立了叶片水势、气孔阻力、蒸腾速率与环境因素间的定量关系式。     

Does root-sourced ABA play a role for regulation of stomata under drought in quinoa (Chenopodium quinoa Willd.)

The Andean seed crop quinoa (Chenopodium quinoa Willd.) is traditionally grown under drought and other adverse conditions that constrain crop production in the Andes, and it is regarded as having considerable tolerance to soil drying. The objective of this research was to study how chemical and hydraulic signalling from the root system controlled gas exchange in a drying soil in quinoa. It was observed that during soil drying, relative g_s and photosynthesis A_max (drought stressed/fully watered plants) equalled 1, until the fraction of transpirable soil water (FTSW) decreased to 0.82 ± 0.152 and 0.33 ± 0.061, respectively, at bud formation, indicating that photosynthesis was maintained after stomata closure. The relationship between relative g_s and relative A_max at bud formation was represented by a logarithmic function (r² = 0.79), which resulted in a photosynthetic water use efficiency WUE_Amax_/gs$\text{WU}{\text{E}}_{A_{\text{max}}/g_{\text{s}}}$ of 1 when FTSW > 0.8, and increased by 50% with soil drying to FTSW 0.7–0.4. Mild soil drying slightly increased ABA in the xylem. It is concluded that during soil drying, quinoa plants have a sensitive stomatal closure, by which the plants are able to maintain leaf water potential (ψ_l) and A_max, resulting in an increase of WUE. Root originated ABA plays a role in stomata performance during soil drying. ABA regulation seems to be one of the mechanisms utilised by quinoa when facing drought inducing decrease of turgor of stomata guard cells.     

Response of Vitis vinifera cv. ‘Tempranillo’ to partial rootzone drying in the field: Water relations, growth, yield and fruit and wine quality

This paper reports the effects of irrigation amount and partial rootzone drying (PRD) on water relations, growth, yield and wine quality of Vitis vinifera cv. ‘Tempranillo’ during two consecutive years in a commercial vineyard with a deep, light-clay soil located in Requena, Valencia, Spain. Partial rootzone drying applied at two amounts (100% and 50% of the estimated crop evapotranspiration), was compared to conventional drip irrigation, and also to rainfed vines. Results showed that the effects of irrigation amount on yield and wine quality were different between years. In 2003 with low yield values (around 6.3 t ha⁻¹) irrigation did neither affect grape production nor wine quality. However, in the following year, with much higher general yield (17 t ha⁻¹), the high irrigation dose increased yield by 30% compared to rainfed vines and it also increased must total soluble solids and wine alcohol content. In both seasons, PRD did not significantly affect physiological parameters, nor growth, yield or fruit and wine quality, when compared to the same amount of water applied by conventional drip irrigation. Overall these results suggest that, under our experimental conditions, it was the irrigation amount rather than the system of application what affected vine performance, indicating the difficulties of successfully employing the PRD type of irrigation with a drip system in heavy and deep soils.     

Determining reference values for stem water potential and maximum daily trunk shrinkage in young apple trees based on plant responses to water deficit

The use of plant water status indicators such as midday stem water potential (Ψ_stem) and maximum daily trunk shrinkage (MDS) in irrigation scheduling requires the definition of a reference or threshold value, beyond which irrigation is necessary. These reference values are generally obtained by comparing the seasonal variation of plant water status with the environmental conditions under non-limiting soil water availability. In the present study an alternative approach is presented based on the plant’s response to water deficit. A drought experiment was carried out on two apple cultivars (Malus domestica Borkh. ‘Mutsu’ and ‘Cox Orange’) in which both indicators (Ψ_stem and MDS) were related to several plant physiological responses. Sap flow rates, maximum net photosynthesis rates and daily radial stem growth (DRSG) (derived from continuous stem diameter variation measurements) were considered in the assessment of the approach. Depending on the chosen plant response in relationship with Ψ_stem or MDS, the obtained reference values varied between −1.04 and −1.46 MPa for Ψ_stem and between 0.17 and 0.28 mm for MDS. In both cultivars, the approach based on maximum photosynthesis rates resulted in less negative Ψ_stem values and smaller MDS values, compared to the approaches with sap flow and daily radial stem growth. In the well-irrigated apple trees, day-to-day variations in midday Ψ_stem and MDS were related to the evaporative demand. These variations were more substantial for MDS than for midday Ψ_stem.