PEG胁迫下春小麦萌发期抗旱指标的遗传力

为探索干旱胁迫对春小麦萌发期生长的影响,筛选春小麦萌发期抗旱性指标。以宁夏灌区和雨养区的2种粒色（红皮和白皮）40份春小麦的抗旱品系为试验材料,研究PEG-6000模拟干旱胁迫对胚根长、胚根数、胚芽鞘长和一叶长的影响。利用广义遗传力分析法,筛选春小麦萌发期抗旱性指标。胚根长的广义遗传力最高,均大于0.55,遗传力的控制程度稳定。雨养区的红粒种子胚根长的遗传力高达0.95;雨养区的红粒种子的胚芽鞘长的广义遗传力最高,达0.94,但其遗传力控制程度不稳定,最低遗传力仅为0.06;胚根数和一叶长的遗传力很低,且控制程度极不稳定。春小麦萌发期胚根长的广义遗传力最高,控制程度稳定。其次是胚芽鞘长,但其遗传力的控制程度不稳定。胚根长可作为春小麦萌发期的抗旱指标鉴定抗旱材料,以胚芽鞘的长度为参考值。     

基于LEED-ND认证的绿色社区开发策略分析--以上海城市最佳实践区为例

指出了中国正处在快速城市化的阶段,绿色社区开发已成为广泛关注的议题。以上海城市最佳实践区为例,通过对LEED-ND认证指标体系的分析,探讨了在LEED-ND认证体系驱动下,城市最佳实践区在场地规划、建筑节能、可再生能源和水资源利用等方面采取的开发策略和应用的绿色技术,以期为未来绿色社区的开发建设提供参考。     

湿法机械处理改善粘胶级竹溶解浆反应性能的研究

为提高溶解浆进行粘胶纤维产品生产的加工性能及减少二硫化碳的排放，采用PFI（papirindustriens forsknings institut）磨打浆和瓦利打浆机打浆这2种湿法机械处理，以改善竹溶解浆的反应性能。以预水解硫酸盐法竹溶解浆为原料，考察PFI磨打浆及瓦利打浆机打浆对溶解浆反应性能及纤维形态的影响，并对同等打浆度条件下的2种湿法机械处理的效果进行比较。PFI磨和瓦利打浆机分别在打浆度为60.5°SR（15 000 r）及36.4°SR（30 min）的优化工艺条件下，Fock反应性能从68.3%分别提高到73.2%和84.0%，粘胶过滤性能由“不通过”到粘胶过滤值分别为3 196.1 s和2 115.6 s。同时，上述2种处理方式均使纤维粗度和长度下降，细小纤维含量、比表面积和总孔隙量增加，且使聚合度损失小。同等打浆度条件下，基于瓦利打浆机对纤维更多的剪切行为，瓦利打浆机打浆对反应性能的提高效果更为显著。     

基于空间分析的黑龙江稻瘟病重点发生区域识别

黑龙江是北方重要稻作区,稻瘟病是影响水稻产量的主要病害之一。依据稻瘟病测报调查规范,基于近5年黑龙江稻瘟病乡村监测点调查数据,利用空间分析技术的方法,分析黑龙江稻瘟病重点发生区县和核心发生区域,提取稻瘟病重点发生乡村监测点。结果表明,近5年黑龙江稻瘟病发病面积占调查面积的7.3%,发病等级以1级为主,整体发生较轻,稻瘟病重点发生区域主要分布在松花江上游地区哈尔滨市的阿城、尚志、方正、延寿、通河、依兰沿线和松花江下游三江平原地区佳木斯市的富锦、同江一带,以及嫩江流域大庆市的肇源县和齐齐哈尔市的讷河市以及呼兰河流域绥化市北林区,并提取了98个叶瘟和47个穗颈瘟重点监测点。上述结果为黑龙江稻瘟病调查监测区域和监测点的布局优化提供了重要依据,为稻瘟病测报防控工作提供重要的支撑。     

川黔等西南地区李子主要病虫害及防治技术

李适应性广,耐瘠薄干旱,是四川、重庆等西南山区的特色经济树种。李果实外观亮丽,脆甜爽口、营养丰富,是深受人们喜爱的特色水果之一。近年来四川、贵州、重庆地区青脆李、空心李、蜂糖李等地方品种有了迅速发展,促进了贫困山区脱贫致富和产业结构调整。但由于管理粗放和防治措施不当,致使李子生产区域病虫害发生严重,影响了果实的品质和经济效益。为了促进李子产业化发展,结合主要产区生产实际,总结出西南地区常见的病虫害及其防治措施,为李子生产提供技术参考。     

Basal internode elongation of rice as affected by light intensity and leaf area

Short basal internodes are important for lodging resistance of rice(Oryza sativa L.).Several canopy indices affect the elongation of basal internodes,but uncertainty as to the key factors determining elongation of basal internodes persists.The objectives of this study were(1)to identify key factors affecting the elongation of basal internodes and(2)to establish a quantitative relationship between basal internode length and canopy indices.An inbred rice cultivar,Yinjingruanzhan,was grown in two split-plot field experiments with three N rates(0,75,and 150 kg N ha−1 in early season and 0,90,and 180 kg N ha−1 in late season)as main plots,three seedling densities(16.7,75.0,and 187.5 seedlings m−2)as subplots,and three replications in the 2015 early and late seasons in Guangzhou,China.Light intensity at base of canopy(Lb),light quality as determined from red/far-red light ratio(R/FR),light transmission ratio(LTR),leaf area index(LAI),leaf N concentration(NLV)and final length of second internode(counted from soil surface upward)(FIL)were recorded.Higher N rate and seedling density resulted in significantly longer FIL.FIL was negatively correlated with Lb,LTR,and R/FR(P<0.01)and positively correlated with LAI(P<0.01),but not correlated with NLV(P>0.05).Stepwise linear regression analysis showed that FIL was strongly associated with Lb and LAI(R2=0.82).Heavy N application to pot-grown rice at the beginning of first internode elongation did not change FIL.We conclude that FIL is determined mainly by Lb and LAI at jointing stage.NLV has no direct effect on the elongation of basal internodes.N application indirectly affects FIL by changing LAI and light conditions in the rice canopy.Reducing LAI and improving canopy light transmission at jointing stage can shorten the basal internodes and increase the lodging resistance of rice.     

基于无人机成像高光谱影像的冬小麦LAI估测

利用无人机Cubert UHD185 Firefly成像光谱仪和ASD光谱仪获取了冬小麦挑旗期、开花期和灌浆期的成像和非成像高光谱以及LAI数据。首先,对比ASD与UHD185光谱仪数据光谱反射率,评价两者精度;然后,选取7个光谱参数,分析其与冬小麦3个生育期LAI的相关性,并使用线性回归和指数回归挑选出最佳估测参数;最后利用多元线性回归、偏最小二乘、随机森林、人工神经网络和支持向量机构建了冬小麦3个不同生育期LAI的估测模型。结果表明:UHD185光谱仪光谱反射率在红边区域与ASD光谱仪趋势一致性很高,反射率在挑旗期、开花期、灌浆期的R^2分别为0.9959、0.9990和0.9968,UHD185光谱仪数据精度较高;7种光谱参数在挑旗期、开花期、灌浆期与LAI相关性最高的参数分别是NDVI(r=0.738)、SR(r=0.819)、NDVI×SR(r=0.835);LAI-MLR为冬小麦LAI的最佳估测模型,其中开花期拟合性最好,精度最高(建模R^2=0.6788、RMSE为0.69、NRMSE为19.79%,验证R^2=0.8462、RMSE为0.47、NRMSE为16.04%)。     

Low soil temperature reducing the yield of drip irrigated rice in arid area by influencing anther development and pollination

Drip irrigation can produce high rice yields with significant water savings; therefore, it is widely used in arid area water-scarce northern China. However, high-frequency irrigation of drip irrigation with low temperature well water leads to low root zone temperature and significantly reduce the rice yield compared to normal temperature water irrigated rice, for example, reservoir water. The main purpose of this paper is to investigate the effects of low soil temperature on the yield reduction of drip irrigated rice in the spike differentiation stage. The experiment set the soil temperatures at 18°C, 24°C and 30°C under two irrigation methods(flood and drip irrigation), respectively. The results showed that, at the 30°C soil temperature, drip irrigation increased total root length by 53% but reduced root water conductivity by 9% compared with flood irrigation. Drip irrigation also increased leaf abscisic acid and proline concentrations by 13% and 5%, respectively. These results indicated that drip irrigated rice was under mild water stress. In the 18°C soil temperature, drip irrigation reduced hydraulic conductivity by 58%, leaf water potential by 40% and leaf net photosynthesis by 25% compared with flood irrigation. The starch concentration in male gametes was also 30% less in the drip irrigation treatment than in the flood irrigation treatment at soil temperature 18°C. Therefore, the main reason for the yield reduction of drip irrigated rice was that the low temperature aggravates the physiological drought of rice and leads to the decrease of starch content in male gametes and low pollination fertilization rate. Low temperature aggravates physiological water deficit in drip irrigated rice and leads to lower starch content in male gametes and low pollination fertilization rate, which is the main reason for the reduced yield of drip irrigated rice. Overall, the results indicated that the low soil temperatures aggravated the water stress that rice was under in the drip irrigated environment, causing declines both in the starch content of male gametes and in pollination rate. Low temperature will ultimately affect the rice yield under drip irrigation.     

基于评价模型的宁夏沙土春玉米最佳灌水施氮量研究

为分析不同水氮供应对宁夏沙土春玉米主要评价指标的影响,采用灌水和施氮2因素交互设计,灌水量设置3个水平(W0.6(0.6KcET0)、W0.8(0.8KcET0)和W1.0(KcET0),Kc为作物系数,ET0为潜在作物蒸发蒸腾量),施氮量设量4个水平:N150(150 kg/hm2)、N225(225 kg/hm2)、N300(300 kg/hm2)和N375(375 kg/hm2),进行了大田试验。结果表明:灌水量和施氮量的交互作用对产量、水分利用效率(WUE)和氮肥偏生产力(PFPN)有极显著影响,对地上部干物质累积量和籽粒氮素累积量有显著影响;在相同灌水条件下,春玉米地上部干物质累积量、产量、WUE均随施氮量的增加先增加后减小。主成分分析法、隶属函数分析法、灰色关联度分析法与基于组合赋权的TOPSIS模型两两之间具有良好的相关性,各模型之间相关系数均值为0.465～0.787;基于整体差异组合评价模型得出W0.8N300评价值最高。考虑试验区年际降雨量分布不均,经回归分析拟合得出,当春玉米生育期内灌水量与有效降雨量之和为544 mm、施氮量为260 kg/hm2时,春玉米综合指标评价值最高(1.47),为适宜的春玉米滴灌灌水施肥量。本研究可为沙土地区春玉米滴灌施肥过程中水氮科学管理提供指导依据。     

浅埋滴灌水氮运筹对春玉米产量及水分利用效率的影响

采用二因素二次饱和D-最优设计，于2016-2017年在辽西半干旱区移动遮雨棚内进行了水氮精量控制试验，设灌溉量和施氮量2个因素，灌溉量分别设145.4、271.7、348.2、436.2 mm 4个水平，施氮量分别设0、84.6、136.1、195.0 kg·hm^-2 4个水平，共6个处理。试验分析了水氮交互作用对春玉米产量和水分利用效率的影响，建立了产量回归模型。研究结果表明：浅埋滴灌条件下，灌溉量在145.4~350.5 mm时，春玉米产量随灌溉量的增加而增高至11 005.60 kg·hm^-2；灌溉量在350.5~436.2 mm时，产量随灌溉量的增加而降低至10 730.09 kg·hm^-2；施氮量在0~146.9 kg·hm^-2时，产量随施氮量的增加而增高至10 983.19 kg·hm^-2，施氮量在146.9~195.0 kg·hm^-2时，产量随施氮量的增加而降低至10 862.39 kg·hm^-2。灌溉量因素的影响大于施氮量，水氮之间有明显的正向交互效应，当灌溉量为373.1 mm，施氮量为165.6 kg·hm^-2时产量最高。作物耗水量在拔节-抽雄期和灌浆-收获期较大，分别为115.64、127.50 mm；水分利用效率随灌溉量的增加呈逐渐降低趋势，降低幅度达到52.21%，随着施氮量的增加则呈先升高后降低趋势，增幅为14.73%~20.08%；其中处理6（灌溉量348.2 mm，施氮量195.0 kg·hm^-2)最利于水分利用效率的提高。综合产量和水分利用效率两方面的因素，初步建立了春玉米浅埋滴灌水氮施用优化模式，参数组合为灌溉量348.2 mm、施氮量165.6 kg·hm^-2。