茶树种质资源抗茶云纹叶枯病鉴定

 茶云纹叶枯病(Guignardia camelliae,无性时代为Colletotrichum camelliae)在我国各产茶省(区)均有发生和为害。对该病的发生规律及防治研究有过报导,但对茶树种质资源的抗病性研究报导甚少,本文简要报道30份茶种质资源抗茶云纹叶枯病的鉴定试验研究结果。     

苹果酸处理水稻种子对秧苗根系及抗寒性影响的初探

水稻种子经苹果酸处理后,淀粉酶过氧化氢酶和脱氢酶活性均有提高。其幼苗根系发达,根/茎叶比重增加。幼苗经5C冷处理后,超氧化物歧化酶活性和叶绿素含量虽表现出下降,但明显高于对照。丙二醛含量和电解质渗漏率比对照为低。苹果酸处理在一定程度上提高了水稻秧苗素质及抗寒能力。     

雄蚕杂交种的应用研究

总结了4年8个蚕期利用家蚕性连锁平衡致死第转育改良组配成的7对雄蚕杂交组合的饲养试验。结果表明雄蚕杂交种具有食桑省、叶丝转化率高、能够大幅度提高蚕出丝率、茧丝质量优异等优点，具有广阔的推广应用前景，对于改造提升传统蚕丝业具有重要意义。     

黄瓜全雌性基因连锁的AFLP和SCAR分子标记

 本研究以全雌品种‘戴多星’自交系和弱雌品种‘北京截头’自交系为双亲杂交获得F₁ ,然后得到F₂ 性型分离群体, 利用分离群体分组分析法(Bulked Segregant Analysis, BSA) 构建全雌和弱雌两个基因池, 筛选了64对AFLP选择性引物EcoR I-NN +Mse I-NNN组合, 发现EcoR I-TG +Mse I-CAC引物组合在全雌基因池中扩增出一条分子量为234 bp的特异带。经F₂ 代单株验证, 该特异条带能在全雌单株中稳定出现。以MAP MAKER (Version 310) 软件分析, 该标记与全雌性位点的连锁距离在617 cM。命名该连锁标记为TG/CAC₂₃₄。将该特异条带回收、克隆、测序, 设计特异SCAR引物, 再对F₂ 代单株基因组DNA进行扩增, 仅在全雌单株中扩增出1条分子量为166 bp 的特异带, 表明已成功地将与黄瓜全雌性连锁的AFLP标记转化为操作简便、表现稳定的SCAR标记, 该标记命名为SA₁₆₆。     

苹果抗病虫育种研究概况

抗病虫育种已成为许多苹果生产国苹果育种的主要目标.选育抗病虫苹果新品种可以降低生产成本,同时也可以满足生产绿色果品的需要.20世纪80年代以来,随着世界环保呼声渐高,苹果抗病虫育种研究日益受到重视,并取得了一定进展.但在我国苹果抗病虫育种研究甚少,仅在方法上进行一些探索,本文概述苹果抗病虫育种研究.     

犬胚胎移植手术路径研究性试验

犬胚胎移植手术路径的确定是移植能否成功的关键。我们选择了12例自然发情的母犬，分为供体组和受体组，每组6头。通过生物检测镜确定排卵时间，用腹腔镜观察卵巢黄体发育情况，同时于交配后第9、11、13天剖腹探查，确定冲卵时间。结果于交配后第11天冲洗供体犬左侧子宫角，保留右侧子宫角的两例犬受孕，移植给2头受体犬左侧子宫角。     

浙江红花油茶高接换冠成活率影响因素研究

为研究浙江红花油茶高接换冠成活率影响因素,解决嫁接成活率低的问题,2013年6月从中国林业科学研究院亚热带林业研究所引进浙江红花油茶优树穗条,在青田县大垟山林场开展浙江红花油茶高接换冠试验,分析砧木林郁闭度、坡位、砧木生长势及接穗保存时间等因素对嫁接成活率的影响。结果表明,林分郁闭度在0.3~0.7之间,随着郁闭度增加嫁接平均成活率提高;郁闭度在0.7~0.9之间,随着郁闭度增加,嫁接成活率降低;当郁闭度为0.7时,嫁接成活率最高为88.8%。山腰的嫁接成活率高达86%,显著高于山顶和山脚。浙江红花油茶砧木生长势越强嫁接成活率越高。接穗于采集当天嫁接效果最好成活率达89.1%,接穗保存1、2、3、4、5、6天嫁接,成活率分别为85.2%、75.2%、51.6%、28.1%、12.2%、9.3%。偏相关分析表明,各因素对嫁接成活率影响由大到小依次为接穗保存时间(-0.97)、郁闭度(0.85)、生长势(0.81)、坡位(-0.65)。     

Soil organic and inorganic carbon sequestration by consecutive biochar application: Results from a decade field experiment

Biochar addition can expand soil organic carbon (SOC) stock and has potential ability in mitigating climate change. Also, some incubation experiments have shown that biochar can increase soil inorganic carbon (SIC) contents. However, there is no direct evidence for this from the field experiment. In order to make up the sparseness of available data resulting from the long‐term effect of biochar amendment on soil carbon fractions, here we detected the contents and stocks of the bulk SIC and SOC fractions based on a 10‐year field experiment of consecutive biochar application in Shandong Province, China. There are three biochar treatments as no‐biochar (control), and biochar application at 4.5 Mg ha^?1 year^?1 (B4.5) and 9.0 Mg ha^?1 year^?1 (B9.0), respectively. The results showed that biochar application significantly enhanced SIC content (3.2%–24.3%), >53 μm particulate organic carbon content (POC, 38.2%–166.2%) and total soil organic carbon content (15.8%–82.2%), compared with the no‐biochar control. However, <53 μm silt–clay‐associated organic carbon (SCOC) content was significantly decreased (14%–27%) under the B9.0 treatment. Our study provides the direct field evidence that SIC contributed to carbon sequestration after the biochar application, and indicates that the applied biochar was allocated mainly in POC fraction. Further, the decreased SCOC and increased microbial biomass carbon contents observed in field suggest that the biochar application might exert a positive priming effect on native soil organic carbon.