引进前苏联陆地棉种质资源主要农艺及经济性状鉴定研究

针对国内棉花生产发展的需要,在石家庄地区自然条件下,我们对引进前苏联的１２９份和国内的７２份陆地棉种质资源的农艺性状、产量及产量因子和纤维品质等性状进行了系统的同步鉴定研究,结果表明：引进材料同国内材料相比,生育期相差不大,引进材料具有株高较矮、果枝节位较低,铃重较高,纤维较整齐,强度高,细度好的特点,而且,在果枝数、叶枝数、单株铃数、单铃重、衣分、子指、纤维整齐度、纤维伸长率等性状的变异潜力和变化幅度均大于国内种质资源。通过系统同步鉴定,筛选出早熟、矮秆、高衣分、高子指、长纤维、高强度和细度好等不同特性的优异材料４４份,改善了我国棉花种质资源缺乏的现状。     

陆地棉抗病虫性和一些重要经济性状之间的相互影响

1996～1998年,分别在自然病圃、人工病圃、网室和温室对19份陆地棉品系的抗病虫性和经济性状进行了全面鉴定。结果表明,这些陆地棉品系对不同病虫害的抗性相互之间存在高度正相关。其抗性、产量和品质主要指标之间也存在密切的正向或负向相关关系。在育种中如能协调好这些重要性状的相互关系,就能培育出高产、优质和兼抗病虫的棉花新品种。     

陆地棉高品质系数量性状的遗传变异与选择指数

 研究了20个高品质陆地棉品系12个数量性状的遗传变异、广义遗传力、遗传相关及产量的选择指数。结果表明,单株产量和株铃数具有较大的遗传变异,纤维品质性状的遗传变异较小,说明继续改良高品质系的产量性状潜力较大。纤维品质性状的广义遗传力介于79.07%~89.47%之间,产量及产量组分性状中以衣分和铃重最高,广义遗传力分别为89.1%和81.85%,单株皮棉重最低,为55.05%。单株皮棉重与株铃数、株铃数与果枝数成极显著遗传正相关。利用与单株皮棉重遗传相关较强的多个性状构建的选择指数,比单纯选择单株皮棉重的效果好,其中以单株皮棉重、株铃数、果枝数和果节数结合选择的效果最佳。     

The Optimization for Crop Planning and Some Advances for Water-Saving Crop Planning in the Semiarid Loess Plateau of China

The establishment of water-saving crop planning is an inevitable choice of the water-saving agriculture for the water-deficiency region in the arid and semiarid Loess Plateau of China and the world. The water-saving crop planning refers to the planting structure that centres the adjustment of the crop's adaptation to water, the optimization of temporal and spatial layout for crops, the local natural resources, marketing resources, human resources and financial input to enable region or basin with limited water resources to achieve the maximum economic, social and ecological benefits of planting industry under certain technology and economy. After the analysis on the research progress of optimization theory, optimization goals, optimization methods of water-saving cultivation structure and macro-control measures, it is pointed out that the main deficiencies of the current research of water-saving cultivation pattern optimization are lacking of a strong theoretical basis, and the immaturity of optimization technologies. The future crucial research direction will focus on five aspects such as the special optimization theory system, the division methods by studying the watershed unit and using 3S technology, optimization model based on multi-objective evolutionary algorithm, evaluation of rationality and macro-control measures on the basis of the public participation.     

黄土丘陵区不同退耕模式对土壤物理性状影响研究—以甘肃定西市为例

甘肃定西全面实施退耕还林近10年来,取得了显著的成效。本文以退耕还林重点地区定西市安定区为例,通过采集、实地调查取样和实验室分析,对比研究了不同退耕植被类型地与对照地（农田和天然草地）的土壤物理性状的变化情况。包括土壤的含水量、容重、土壤孔隙度、土壤水稳性团聚体结构。研究结果表明：天然草地和柽柳的含水量最高,分别为13.44%和13.52%。农田和山杏的含水量最低为8.01%和8.2%。0～60cm不同土层中柠条的容重最小且变化不大,农田的上下变化最大。在20～60cm退耕还林地的孔隙度均高于天然草地和农田,天然草地和农田非毛管孔隙度小且上下变化大,不利于土壤入渗。刺槐、柠条、柽柳的水稳性团聚体的含量最多,分别是农田的3.4、2.8和2.4倍。退耕还林以后,林地的土壤物理性状得到明显的改善,与农田和天然草地相比,刺槐,柠条的改良效果最好。因此对退耕还林地区进行植被恢复过程中,要深入了解当地的土壤环境特征,做到因地制宜,适地适树。     

Effects of plastic film mulch and tillage on maize productivity and soil parameters

This paper determined the effects of mulching time for double furrows and ridges using plastic film on soil water status, grain yield of maize, soil quality, and economic benefits. The study was conducted in a typical semiarid area during two growing seasons of 2006–2007 with the following three treatments: (i) plastic film mulching at maize sowing with conventional tillage, and the film was removed at harvest (CK); (ii) mulching applied 30 d before sowing with conventional tillage, and the film was removed at harvest (T1); and (iii) mulching at sowing with no-tillage, and the film left on the field after harvest in the first season and used for mulching in the second season (T2). The T1 in both years and T2 in the second year (2007) improved soil water content (in the 0–60 cm layer) and temperature (10 cm) at sowing compared with CK. After the two seasons, the soil water content was significantly higher in the 0–80 cm soil layer in CK and T1, and in the 0–120 cm soil layer in T2; however, it decreased significantly in 140–200 cm soil layer in CK and T1, compared to their initial values at sowing in April 2006, and there was no significant change in T2. The rainfall storage in the 0–200 cm soil layer during the non-growing season (late September 2006 to late April 2007) was 18.2 mm in CK, 34.0 mm in T1, and 59.7 mm in T2, and the rainfall storage in 100–200 cm soil layer was 16.5 and 18.6 mm higher in T2 than in CK and T1, respectively. In 2006, there were no significant differences in yield and water use efficiency (WUE) in all treatments. In 2007, the yield in T1 was significantly higher than in T2, but yields in T2 and CK were not significantly different, and there was no significant difference in WUE among treatments. Soil organic carbon (SOC) (0–20 cm) decreased in CK and T1, but increased (by 2.7%) in T2 at harvesting in September 2007 from the initial value of sowing in April 2006. The ratio of output to input was 1.32:1 for CK, 1.40:1 for T1, and 1.67:1 for T2 averaged across the two seasons. Therefore, T2 was a more sustainable model for increasing water storage, producing greater economic benefit and maintaining SOC balance for maize production in semiarid area.     

基于DSSAT-CERES-Wheat的黄土高原西部春小麦干旱影响研究

为提出有效措施预防黄土高原西部地区春小麦生产受到气象和农业干旱的影响,估算了1961—2018年期间、时间尺度1～6个月标准化降水蒸散指数（Standardized precipitation evapotranspiration index, SPEI）以及深度0～10 cm和深度10～40 cm的土壤水分亏缺指数（Soil moisture deficit index, SMDI）,探究了气象和农业干旱时空变化规律;利用DSSAT-CERES-Wheat模型模拟了黄土高原西部7个站点春小麦1961—2018年的生长要素和产量数据,分析了其时空变化规律;并研究了气象和农业干旱对春小麦生长过程及产量的影响。结果表明：以甘肃临夏站为例,时间尺度1～6个月SPEI和SMDI的干湿状态总体上一致,SPEI总体呈现干湿交替,深度0～10 cm的SMDI以及深度10～40 cm的SMDI的变化基本一致,均呈现变湿润的趋势。DSSAT-CERES-Wheat模型模拟黄土高原西部春小麦生长过程和产量方面的效果良好（决定系数R²为0.65～0.84）;1961—2018年春小麦最...     

俄罗斯沙棘优良品种引种试验研究

“三北”地区和黄土高原是中国沙棘亚种的分布中心,现已有大面积人工沙棘林,但其果小、刺多,产果量低,采果难。为此,作者于1997－2006年承担水利部“948”沙棘引进项目,以解决该地区沙棘优良品种缺乏问题。通过8年试验研究,引进俄罗斯大果无刺沙棘优良品种、类型40余种,分别在“三北”和黄土高原地区的7个主要试验基地进行引种试验,从中初步筛选出效果较好的9个优良品种、类型。它们生长发育良好,抗性较强,具高产、优质特性,并已开始利用引进的俄罗斯沙棘与当地中国沙棘杂交,培育出第一代杂交种。在引种选育和对俄罗斯沙棘生物生态学特性进行试验研究的基础上,对其良种的集约栽培和繁育做了试验和示范推广工作,产生了良好的生态、经济效益。通过本项目实施,为做好沙棘引种选育工作提供了良种,这对大面积建造高产、优质人工沙棘林和沙棘果园,加速黄土高原和“三北”地区的环境治理、发展地方经济具重要意义。     

杂交旱稻丰产节水栽培关键技术研究与集成应用

针对安徽沿淮地区气候特点,通过试验筛选出适宜沿淮地区旱种旱管栽培,丰产性和稳产性较好的旱稻品种5个,节水耐旱型水稻品种7个;明确了沿淮地区以旱优73为代表的杂交旱稻的丰产节水栽培技术:播种期6月5-12日,播种量2.0 kg/667 m~2左右,氮肥用量10~14 kg/667 m~2;在施肥过程中适当降低基蘖肥用量、增施穗粒肥,基、蘖、穗肥比例以4∶4∶2较好。     

Growth and yield responses of upland NERICAs to variable water management under field conditions

This study aimed to investigate the possible causes for inconsistent performances of upland New Rice for Africa (NERICA) varieties in uplands and lowlands, while identifying important determinants in grain yield under deficient soil moisture. We compared the growth and yield of NERICA 1 and NERICA 5 to those of Yumenohatamochi, a Japanese upland variety, and Hinohikari, a Japanese lowland variety, subjected to different water management regimes (continually flooded, supplementary irrigation, and non-irrigation). Under conditions of deficient soil moisture, panicle number per square meter, spikelet number per panicle, and 1000-grain weight of NERICAs decreased, whereas the panicle number of the Japanese varieties experienced little change. In contrast, the grain filling ratio was unaffected by water management, irrespective of variety. The primary source of yield reduction under low soil water conditions was a decrease in spikelet number per panicle, and water stress intensity was the primary factor for the degree of this reduction. Variation in the abortion of secondary rachis-branches caused differences between NERICAs in their spikelet number response to soil moisture deficiency. The inconsistency in NERICA performance across uplands vs. lowlands can be partially attributed to variation in yield response to low soil water conditions. Moreover, water stress intensity and the presence of a water gradient along the vertical soil profile may combine to affect the fluctuation in NERICA performance under upland conditions.