住宅建筑热泵的热源选择

指出了住宅建筑的暖通空调能耗占建筑能耗的比重大，较燃煤取暖而言，热泵技术的节能效果显著。从原理特点、适用性、限制条件、土建和设备建设难度和周期、后期管理维护等方面分析了空气、地表（下）水、土壤、太阳能和污水等热泵热源，探讨了住宅建筑热泵热源选择的总的原则。     

吉育系列大豆品种生育期组的划分研究

为明确吉育系列大豆品种的生育期组(maturity group,MG)归属,促进不同区域间的科学引种,以15份美国大豆生育期组标准品种为对照,采用以对照品种的生育日数为参照标准和以品种的活动积温为划分标准两种方法,于2013和2014年对95份新近选育的吉育系列大豆品种进行了生育期组划分研究。结果表明:吉育系列品种生育期组介于MG0~MGⅢ组之间,居MGⅡ组的品种最多,MGⅢ组的品种最少。有89份参试材料按两种划分方法结果一致,占参试材料的93.7%;有6份参试材料的两种划分方法结果不在同一组内,占参试材料的6.3%。通过比较各生育期组品种在R1、R7和R8期的持续天数表现,验证了生育期组划分的正确性。综合两年试验结果发现,适宜吉林省大面积种植的早熟、中早熟大豆品种主要归属于MG0和MGⅠ组,中熟、中晚熟品种主要归属于MGⅡ。此研究结果为完善中国大豆生育期组划分系统和实现大豆品种布局的科学化与标准化提供了技术依据。     

长白落叶松1.5代种子园营建技术

永吉县西阳林木种子园2010年开始进行长白落叶松1.5代种子园建设工作,采用先定砧、后嫁接方式建园。建园材料为88个优良无性系。其中,从第一代种子园生产区中逆向选择无性系47个,优良种源天然林优良林分选择无性系41个。建设总面积20 hm~2,区划为4个大区、18个小区,以小区为单位利用完全随机法配置无性系,为充分异型交配创造条件。     

莱豆新品种龙莱1号的选育

征集龙岩市莱豆地方品种13个,按照育种目标进行品种筛选、提纯、繁殖、特征特性观察与栽培技术试验,育成的莱豆新品种龙莱1号具有中熟、品质优、产量高、抗病性较强、适应性广、商品价值高等特点。该文介绍该品种从2003～2010年的选育过程及该品种主要特征特性。     

大豆胞囊线虫主效抗病基因Rhg4(GmSHMT)的CAPS/dCAPS标记开发和利用

大豆胞囊线虫(soybean cyst nematode,SCN)严重危害世界大豆生产,Rhg4(resistance to Heterodera glycines 4)是控制大豆SCN抗性的2个主效位点之一。本研究针对Rhg4(Gm SHMT)上的2个单核苷酸多态性(single nucleotide polymorphisms,SNP)位点开发了快速、经济、简便易行的CAPS(Rhg4-389)和d CAPS标记(Rhg4-1165),并用开发的2个标记鉴定了以大豆胞囊线虫应用核心种质为主的193份代表性抗感种质。结果表明,Rhg4-389和Rhg4-1165位点间存在显著连锁不平衡(P=0.0001,r2=0.87),可形成4种单倍型。Rhg4-389-G/Rhg4-1165-T和Rhg4-389-C/Rhg4-1165-A为优势单倍型,稀有单倍型Rhg4-389-G/Rhg4-1165-A和Rhg4-389-C/Rhg4-1165-T是在中国抗源中新发现的单倍型。结合193份种质对SCN 3号小种抗性鉴定分析发现,Rhg4-389-G和Rhg4-1165-T主要存在于抗病种质,它们形成的单倍型对抗病种质鉴定效率可达94.1%。本研究开发了可用于辅助大豆SCN抗性鉴定且方便育种家利用的CAPS/d CAPS标记,且用其摸清了应用核心种质等重要抗源在Rhg4位点的"本底",为育种家有效利用这些优异抗源提供了重要信息。     

恩格斯生态自然观对我国生态文明建设的启示

人与自然之间的关系问题是生态环境的根本问题,人既有自然属性又有社会属性,人与自然界既对立又统一,人们改造与利用自然界必须遵循客观发展规律,实现人与自然和谐共处。恩格斯的生态自然观对实现我国人与自然的和谐共处,建设美丽生态中国具有重要的现实意义。因此,要以恩格斯生态自然观为指导,积极开展生态文明教育,树立环保意识;大力倡导绿色消费模式,推动绿色发展。     

A global sensitivity analysis of cultivar trait parameters in a sugarcane growth model for contrasting production environments in Queensland,Australia

New sugarcane cultivars are continuously developed to improve sugar industry productivity. Despite this sugarcane crop models such as the ‘Sugar’ module in the Agricultural Productions System sIMulator (APSIM-Sugar) have not been updated to reflect the most recent cultivars. The implications of misrepresenting cultivar parameters in APSIM-Sugar is difficult to judge as little research has been published on the likely values of these parameters and how uncertainty in parameter values may affect model outputs. A global sensitivity analysis can be used to better understand how cultivar parameters influence simulated yields. A Gaussian emulator was used to perform a global sensitivity analysis on simulated biomass and sucrose yield at harvest for two contrasting sugarcane-growing regions in Queensland, Australia. Biomass and sucrose yields were simulated for 42 years to identify inter-annual variability in output sensitivities to 10 parameters that represent physiological traits and can be used to simulated differences between sugarcane cultivars. Parameter main effect (S_i) and total effect (ST_i) sensitivity indices and emulator accuracy were calculated for all year-region-output combinations. When both regions were considered together parameters representing radiation use efficiency (rue), number of green leaves (green_leaf_no) and a conductance surrogate parameter (k_L) were the most influential parameters for simulated biomass in APSIM-Sugar. Simulated sucrose yield was most sensitive to rue, sucrose_fraction (representing the fraction of biomass partitioned as sucrose in the stem) and green_leaf_no. However, climate and soil differences between regions changed the level of influence cultivar parameters had on simulation outputs. Specifically, model outputs were more sensitive to changes in the transp_eff_cf and k_L parameters in the Burdekin region due to lower rainfall and poor simulated soil conditions. Collecting data on influential traits that are relatively simple to measure (e.g. number of green leaves) during cultivar development would greatly contribute to the simulation of new cultivars in crop models. Influential parameters that are difficult to measure directly such as transp_eff_cf and sucrose_fraction are ideal candidates for statistical calibration. Calibrating crop models either through direct observation or statistical calibration would allow crop modellers to better test how new cultivars will perform in a range of production environments.     

Drought Stress in Grain Legumes during Reproduction and Grain Filling

Water scarcity is a major constraint limiting grain legume production particularly in the arid and semi‐arid tropics. Different climate models have predicted changes in rainfall distribution and frequent drought spells for the future. Although drought impedes the productivity of grain legumes at all growth stages, its occurrence during reproductive and grain development stages (terminal drought) is more critical and usually results in significant loss in grain yield. However, the extent of yield loss depends on the duration and intensity of the stress. A reduction in the rate of net photosynthesis, and poor grain set and grain development are the principal reasons for terminal drought‐induced loss in grain yield. Insight into the impact and resistance mechanism of terminal drought is required for effective crop improvement programmes aiming to improve resistance to terminal drought in grain legumes. In this article, the impact of terminal drought on leaf development and senescence, light harvesting and carbon fixation, and grain development and grain composition is discussed. The mechanisms of resistance, management options, and innovative breeding and functional genomics strategies to improve resistance to terminal drought in grain legumes are also discussed.     

不同林龄枫香子代性状变异与家系选择

对布设在安徽祁门县的首批84个枫香子代测定林，分析比较了9年生与3年生两个不同林龄胸径、树高性状的遗传力和遗传增益等参数，并开展了优良家系选择。结果表明不同时期入选的家系名称、数量及名次出现较大差异，大部分家系胸径、树高性状的家系遗传力、单株遗传力及遗传增益等参数估值，表现为随林龄增大而降低。研究结果为枫香良种选育的适宜林龄提供了参考依据。     

辽葱5号的选育

辽葱5号是以玉田县五叶齐大葱为母本、朝阳鳞棒葱为父本进行有性杂交，对杂交后代进行季节穿梭选择的方法，即用3年时间进行了3个世代的以株为单位的混合选择及以株系为单位的选择，最后留选1个经济性状整齐、生殖性状稳定的雄性可育母系，经系内混合授粉育成的大葱新品种。该葱生长旺盛、秋葱产量高、葱白较长、叶片直立性好、抗紫斑病能力较强，适合长季节栽培，生育期在120d以上，属中晚熟品种。冬贮干葱可食用率高，适宜北方各省、区种植。