理论灌输模式的建构

运用模式方法研究高校思想政治教育是当前教育研究的崭新领域,对于提高高校思想政治教育的实效性具有重要意义.理论灌输模式作为高校思想政治教育模式的一种,包括教育者、受教育者、教育内容、教育手段四个要素和激发动机、理论传授、理论学习、检查巩固、实践运用、总结评价等操作环节,它主要应用于高校思想政治理论课模式、通识教育模式、政治理论学习模式和个别辅导模式等.     

中国森林资源管理政策的演变及启示

依据目标和途径将中国森林资源管理政策的变迁划分为4个阶段,评述了各个阶段森林资源管理政策的主要特点,并进一步就政策内容、政策制定和执行等方面探讨了从中获得的启示。     

乌骨鸡蛋形指数对孵化率的影响研究

将乌骨鸡种蛋按蛋形指数分为Ａ（≤７２．０％）、Ｂ（７２．１％－７４．０％）、Ｃ（７４．１％－７６．０％）、Ｄ（７６．１％－７８．０％）、Ｅ（≥７８．１％）五组进行孵化,结果表明：五组包骨 受精蛋孵化率分别为８２．６％、８６．１％、９０．２％、８７．２％、８２．５％、Ｃ组显著高于Ａ、Ｂ、Ｄ、Ｅ各组（Ｐ〈０．０５）,并极显著地高于Ａ组和Ｅ组（Ｐ〈０．０１）,蛋形指数为７４．１％－７６．０％的乌骨鸡种蛋孵化效果最佳。     

有益菌根真菌及其互作对带叶兜兰试管苗生理生长的影响

为探讨菌根真菌的互作效应,筛选协同互作模式组合,对从野生兜兰新鲜营养根中分离、筛选出的3种菌根真菌（PF02、PF06和PF07）,采用单菌接种、双菌混合接种和三菌混合菌种等7种接种方式,开展菌−苗共生培养,筛选出优势菌株PF02和PF07,揭示在实验室环境下接菌方式与接种效应之间的相互联系,分析菌根真菌互作对带叶兜兰植株生长和生理的影响。结果表明：显示菌根真菌互作对宿主植株的生物量、保护酶活性及叶绿素总量具有较好的正向效应。3种双菌混合接种方式PF02−PF06、PF02−PF07及PF06−PF07均能有效促进带叶兜兰生物量增长,尤其是PF02−PF06接种方式,抗氧化酶POD、超氧化物歧化酶SOD、过氧化氢酶CAT活性及叶绿素总量提高显著。选择优化的接种方式,以及能够协同促进、达到共生平衡的最佳接种方式组合,最大限度发挥菌根对宿主植物的益生作用。     

Effects of nitrogen and water stress on the rehydration,endogenous hormonal regulation and yield of maize

Water scarcity is known to be a strong limiting factor affecting maize grown and yield in cold semi-arid regions. Numerous studies have shown that rehydration improves maize growth. Our study aimed to explore the effects of rehydration treatments on maize growth and yield under water and nitrogen stress during different growth stages. We selected the drought-tolerant maize variety Nendan 19 (ND19) and subjected it to water stress during the V6 (sixth-leaf), R2 (filling) and R6 (maturity) growth stages and a rehydration treatment after each stress stage. Our results indicated that N1 (N100 kg N ha⁻¹) and N3 (N300 kg N ha⁻¹) treatments significantly increased the leaf moisture status relative to water content (RWC), bound water content (BWC), free water content (FWC) and water potential (WP)) at different growth stages. Similar trends were observed in the accumulation of plant leaf and root hormones (zeatin+zeatin riboside, indole-3-acetic acid, abscisic acid and gibberellic acid), photosynthetic pigments and chlorophyll fluorescence. However, under the same water stress conditions, they decreased as the N rate increased and reached a minimum value in the S3 (water stress for N3) treatments. In addition, with growth stage advancement and extension of the rehydration time, both showed a gradual upward trend. The results showed that to save water resources in the cold semi-arid region, rehydration treatments (R2S1 and R2S3) significantly increased the photosynthetic pigments and chlorophyll fluorescence parameters, leaf moisture status, biomass, 100-grain weight, hormone content, ear characteristics and grain yield of maize.     

Short term soil priming effects and the mineralisation of biochar following its incorporation to soils of different pH

The aim of this work was to determine the magnitude of the priming effect, i.e. short-term changes in the rate (negative or positive) of mineralisation of native soil organic carbon (C), following addition of biochars. The biochars were made from Miscanthus giganteus, a C4 plant, naturally enriched with ¹³C. The biochars were produced at 350 °C (biochar350) and 700 °C (biochar700) and applied with and without ryegrass as a substrate to a clay-loam soil at pH 3.7 and 7.6. A secondary aim was to determine the effect of ryegrass addition on the mineralisation of the two biochars.After 87 days, biochar350 addition caused priming effects equivalent to 250 and 319 μg CO₂-C g⁻¹ soil, in the low and high pH soil, respectively. The largest priming effects occurred at the start of the incubations. The size of the priming effect was decreased at higher biochar pyrolysis temperatures, which may be a way of controlling priming effects following biochar incorporation to soil, if desired. The priming effect was probably induced by the water soluble components of the biochar. At 87 days of incubation, 0.14% and 0.18% of biochar700 and 0.61% and 0.84% of biochar350 were mineralized in the low and high pH soil, respectively. Ryegrass addition gave an increased biochar350 mineralisation of 33% and 40%, and increased biochar700 at 137% and 70%, in the low and high pH soils, respectively. Certainly, on the basis of our results, if biochar is used to sequester carbon a priming effect may occur, increasing CO₂-C evolved from soil and decreasing soil organic C. However, this will be more than compensated for by the increased soil C caused by biochar incorporation. A similar conclusion holds for accelerated mineralisation of biochar due to incorporation of fresh labile substrates. We consider that our results are the first to unequivocally demonstrate the initiation, progress and termination of a true positive priming effect by biochar on native soil organic C.     

crataegus grayana的组织培养

同许多种其它果树一样,山植属的Crataegus grayana也可应用组织培养的方法,进行快速繁殖。在加入0.25ppmBA,0.5ppmIAA以及150ppm水解干酪素的MS培养基上,可由胚得到实生苗。在加入0.5ppm和300ppm水解干酪素的MS培养基上,由茎尖与茎段可得到壮实的试管苗。由于该植物胚在第一年内成熟度甚低,因此用茎尖或茎段进行快繁殖远优于用胚来进行。从此项研究结果看,其繁殖率为2~n-3~n(n为∮月数)。     

花椒病虫害影响因素的初步研究

花椒Zanthoxylum bungeanum Maxim属芸香科花椒属植物,四川省北川县青片乡花椒种植面积较大,由于当地花椒风味独特,市场供不应求.但是,当地花椒树一直受根腐病、花椒虎天牛和花椒瘿蚊的危害,致使约80%的椒树未达到盛果期就死亡.