3种冷季型草坪草混播配方优化组合筛选试验

在河西走廊中部地区气候条件下,通过对草地早熟禾Poa pratensis、高羊茅Festuca arundinacea、多年生黑麦草Lolium perenne3种冷季型草坪草18种混播配方进行了成坪品质的观察测定,筛选出了适应当地气候条件的优化组合配方10个。     

单季晚稻强化栽培的生育特性表现及高产途径分析

试验结果表明 :单季晚稻实行强化栽培具有早栽早发 ,有效分蘖期长 ,单株分蘖多 ,根系发达等个体强化特征特性 ,其高产途径是强个体、适群体 ,争大穗 ,夺高产 ,是传统穗粒兼顾高产途径向大穗更高产途径改进的新型技术 ,不仅增产潜力大 ,而且省工节本。     

围栏封育对环湖地区高寒草原植物群落地上生物量的影响

研究了围栏封育对环湖地区高寒草原植物群落地上生物量的影响,结果表明：在牧草的整个生长季,总生物量呈单峰曲线变化,生育初期地上生物量最小,到8月上旬生物量达到最大,为267.1g/m2。围栏封育有利于优良牧草（禾草＋莎草）的生长,提高优良牧草的百分比组成;抑制阔叶草（豆科＋杂草）的生长,降低其百分比组成。     

冷季藏系羊补饲的效果观察

通过对20头2岁母藏系羊补饲,在补饲期间期中增重3.32kg,增重率为14.46%。期末增重0.91kg,增重率为3.81%。试验组羊总增重4.23kg,增重率为17.20%。对照组羊在期中增重-0.69 kg,增重率为-3.51%。对照组羊总增重-3.36kg,总增重率为-19.83%。补饲结束后在6月份增重2.65kg,增重率为9.99%。7月份增重8.03kg,增重率为23.24%。8月份增重5.18kg,增重率为13.04%。9月份增重8.73kg,增重率为17.42%。夏秋总增重21.59kg,增重率为44.88%。对照组羊在6月份增重0.29kg,增重率为1.70%。7月份增重3.74kg,增重率为17.92%。8月份增重2.13kg,增重率为9.26%。9月份增重6.22kg,增重率为21.22%。对照组羊在夏秋草场总增重12.09kg,增重率为41.88%。     

准噶尔盆地南缘梭梭群落春季融雪期的土壤呼吸动态

积雪对温带中高纬度地区早春土壤温度和水分具有调控作用,并对土壤呼吸具有重要影响。利用箱式法观测2012年早春积雪融化阶段古尔班通古特沙漠南缘典型温带荒漠梭梭群落内土壤呼吸的动态变化。结果表明：春季融雪期梭梭群落土壤呼吸变异极大,变化范围为0.2~1.2 μmol•m-²•s^-1,日平均土壤呼吸速率变化呈先增后减趋势,但土壤最大呼吸速率随土壤含水量的减少而减少。融雪期灌丛内外土壤呼吸变化规律相同,梭梭灌丛内土壤呼吸速率显著高于灌丛外。融雪期土壤含水量与最大土壤呼吸具有显著的相关关系,但在日尺度上土壤温度与土壤呼吸具有显著的相关关系。研究表明：积雪融化对土壤呼吸具有显著的激发效应,早春积雪变化对土壤呼吸速率将产生重要影响。     

冬季抗旱措施对小麦耗水特征与生育性状的影响

在2010—2011年小麦生长季节降水量为47.7 mm条件下,采用冬季抗旱处理时期(1月28日、2月12日、2月27日)、冬季抗旱措施与春一水灌水量组合(冬季喷灌+春一水灌水量75 mm、漫灌措施+春一水灌水量75 mm,冬季覆盖牛粪措施+春一水灌水量90 mm)2因素设计,研究了河北低平原区高产条件下冬小麦耗水特征和生育性状。结果表明:各处理的小麦全生育期总耗水量为384.93~464.24 mm,产量水分利用效率为15.23~20.87 kg·hm-2·mm-1。播种到越冬期和起身到灌浆期是小麦耗水量较大的时期。同一处理时期不同水肥措施下,随灌水量的增加,耗水量有增加趋势,水分利用效率与灌溉水利用效率有降低趋势;其中以牛粪覆盖措施小麦产量和灌水利用效率最高,喷灌措施小麦产量水分利用效率高于漫灌。同期不同水肥措施对小麦干物质再分配的影响表现为:牛粪覆盖措施和对照促进了小麦开花前营养器官贮存的同化物向籽粒再分配,喷灌和漫灌提高了小麦开花后干物质积累量和籽粒中来自花后积累干物质的比例。不同处理时期同一水肥措施比较,随处理时期推迟籽粒产量有增加趋势。以上结论可为指导小麦冬季田间旱情补救措施提供理论依据。     

紫色水稻土轻组有机质的季节动态研究

以位于重庆市北碚区西南大学试验农场(30°26′N,106°26′E)的紫色水稻土为研究对象,利用重液(NaI,密度1.8 g·cm-3)对土壤中轻组组分进行提取,对土壤中轻组有机质在整个油菜生长季的季节变化情况进行分析与讨论。结果表明:表层(0~30 cm)土壤轻组物质(LF)的含量为2.95%~5.51%,平均值为4.38%;土壤轻组有机碳含量(LFOC)和轻组氮含量(LFN)的变化范围分别为1.44~3.72 g·kg-1和0.08~0.17 g·kg-1,其平均值分别为2.79 g·kg-1和0.14 g·kg-1。LFOC具有明显的季节变化(P<0.05),其含量在油菜生长中期最高,其次是生长后期,而在生长初期最低;LFN的季节变化趋势与LFOC一致,但季节差异性不显著(P>0.05)。轻组有机碳分配比例(LFOC/SOC)的变化范围为9.21%~24.47%,具有明显的季节变化(P<0.05),其变化趋势与LFOC的季节变化一致;而轻组氮的分配比例(LFN/TN)变化范围为4.55%~12.58%,无明显的季节变化。轻组C/N比值季节变化范围为18.52~25.04,平均值为20.66,全土C/N比值的变化范围为9.04~14.36,平均值为11.66,说明轻组有机质的生物可利用性较土壤总有机质高。相关分析表明,轻组有机碳、氮含量分别与根系生物量、根系碳含量、根系氮含量呈极显著(P<0.01)或显著(P<0.05)正相关;回归分析表明,土壤轻组有机碳、氮含量变化的40%~60%可由根系生物量、根系碳氮含量决定,说明根系是调控紫色水稻土轻组有机碳、氮季节变化的主要生态因子。     

Reproductive season and female maturity size of coconut crab <Emphasis Type="Italic">Birgus latro</Emphasis> on Hatoma Island,southern Japan

Information about reproductive season, size at sexual maturity and size-dependent reproductive potentials is important for efficient resource management. Such information is necessary to determine seasonal closures and minimum legal size limits. To conserve resources of coconut crab Birgus latro, which are in danger of extinction due to excessive exploitation, their reproductive season, female size at functional maturity and relationship between female size and reproductive potentials were investigated. The reproductive season started in early June and ended late August, and females with higher reproductive potentials showed a tendency to spawn early in the reproductive season. The prohibition of exploiting the resources during the reproductive season, especially early in the season, would be appropriate for sustainability of high reproductive outputs. Fifty percent of investigated females matured functionally at 24.5-mm thoracic length (TL). However, the size at which all females reached functional maturity was 32.3 mm TL, and there was a wide variation in the size of functional maturity among individuals. We must determine minimum legal size by taking the variation into account to allow all individuals to mate at least once before they are caught, which may prevent serious depression in reproductive rate and genetic diversity.     

泉州平原作物生长季和夏旱期降水量叠加预测模式及其应用

采用时间序列分析方法，对最能代表整个泉州平原降水情况的晋江气象站１９６０～１９９６ 年共３７ ａ 中３～１１ 月（作物生长季）和７～９ 月（夏旱期）２ 段时间的降水量资料进行统计，同时分析了该地区的降水量变化规律，获得了该地区上述２ 段时间的降水量模式，进而提出了防御干旱的措施，     

Early flower initiation allows ample manipulation of flowering time in cherimoya (Annona cherimola Mill.)

Flower initiation date and readiness to flowering in buds of different age were studied in ‘Fino de Jete’ cherimoya (Annona cherimola) cultivar in order to establish the limits for the manipulation of its flowering date. Flower initiation was analyzed by light and scanning electron microscopy (SEM) collecting axillary buds from May to the following February, whereas the bud readiness to produce perfect flowers was determined by forcing buds of different age to sprout by means of leaf removal and tipping the new growth. SEM images confirm that cherimoya buds are differentiated into flowers almost a year before blooming. In this regard, axillary buds have already formed the sepals when the subtending leaf has just begun unfolding (week 0), while the petals are clearly visible in 1-week-old buds. Sectioning of paraffin-embedded buds illustrate that cherimoya buds are in fact a bud complex that 1 week after its inception comprises 4–5 buds of different size of which the two largest ones are reproductive, while the 2–3 smallest buds often remain undifferentiated at that time. The high capacity of flowering expressed by young buds that have been forced to grow proves that cherimoya meristems are early competent for flowering. No differences in fertility or in the time needed to reach anthesis after leaf removal were found among buds of different ages. Node position had no effect on bud break and flowering potential. The early flower initiation in cherimoya deduced from this work opens a wide temporal window for the experimental manipulation of flowering and harvest dates in this crop.