江西茶产业发展的现状与思路

1江西茶叶生产的现状 江西茶叶生产历史悠久,始于汉,盛于唐.宋代,江西茶叶产量居全国之首（全国岁茶课为1153万kg,江西342.5万kg）.明清时期,涌现了庐山云雾、遂川狗牯脑、修水双井绿、婺源绿茶、浮梁红茶等一批具有地方特色的优质名茶.新中国成立后,由于党和政府的重视,江西的茶园面积和产量分别从1949年的4800hm^2、2145t增加到1998年的5.47万hm^2、2.1万t.产茶区域遍及全省的每个县市,茶叶已成为茶区农民经济收入的主要来源和县、乡财政的支柱. 　　……     

刺槐种群生物量动态研究

研究了河北省太行山刺槐种群乔木层生物量、各组分量及种群密度的动态规律。结果表明，刺槐种群自人工造林伊始，其种群总生物量、各组分量、种群密度（断面积表示）即表现出速增性，约至１２ａ生达到峰值，基本符合Ｌｏｇｉｓｔｉｃ规律。此后随个体间竞争的加剧，自疏作用加强，种群呈不稳定状态，种群密度和生物量下降，由一个同龄纯林逐渐趋向于具有多代个体年龄结构稳定的群体，并使种群生物量回复到一个相对稳定水平。本文还建立了生物量及各组分量与种群年龄、密度的相关模型，及Ｗ～ｆ（Ａ，Ｇ，Ｈ）多元线性回归议程。     

刺槐单株生物量动态研究

本文依据420株刺槐生物量及23株树干解析资料,应用灰色Verhulst模型,对太行山坡地刺槐林单株干、枝、叶、根生物量动态进行了研究,分别建立了预测模型,预测了各器官生长的速生期和停止生长林龄,为实现刺槐林的多目标经营提供决策依据。     

茶树新梢的弯曲力学特性

采用专门设计的生物材料试验机测定了茶树新梢的折断力、断裂挠度和弹性模量等力学指标，初步探明了新梢节位（嫩度）、截面积、品种和空气温、湿度对这些指标的影响。结果表明折断式采摘机构能有效地实现选择性采茶，可克服切割式采茶机“一刀切”的弊端。此外，作者根据大量的测试数据，提出了折断式采摘器的基本工作参数。     

Issues and Some Strategies of Sustainable Development of Black Soil Resources in Black Soil Zone in Northeast China

黑土资源是世界的稀缺资源,黑土带的水土流失、环境污染、土地流转、土地退化问题成为黑土资源可持续发展的障碍。根据实地调研结合资料,分析了东北黑土带土地资源可持续发展的主要问题;提出了黑土资源的可持续发展对策,即:加强农业发展规划;保护黑土区耕地,农耕技术上改进,加强农田基本建设等。     

草甘膦在茶园中的应用研究

草甘膦是一种具有内吸传导、杀草谱广、毒性低等特性的新型化学除草剂,对根除茶园常见杂草有特效。用草甘膦防除茶园杂草的最佳浓度因杂草种类不同而异,以一、二年生杂草为主的茶园用0.10％的浓度为宜,以多年生杂草为主的茶园用0.15％的浓度较好。用液量以杂草充分湿润为度。全年喷药一次或二次即可,若喷一次,宜在五月下旬进行;若秋季草害较重,则在八月下旬复喷一次。使用该方法除草,全年只需耗药费4.80元～6.40/亩,除草效果优于全年人工除草三次者,节省除草工7～9个/亩,增产5～7％,对保持茶园生态平衡,提高茶叶品质均有益。     

黑杨无性系日CO2固定总量的测定及与苗木生产潜势的相关性研究

通过对不同基因型黑杨无性系植株净光合速率日变化曲线与光合主体叶面积在时间和光强上进行累计积分来计算植株日CO2固定总量P。由于净光合速率日变化曲线不易准确测得，故以光响应曲线和光强的日变化来推测净光合速率日变化。对P值和生物量的相关性研究表明，二者的相关性很高。且认为可以用计算出的P值作为评估苗木生产潜势的指标之一，这为育种中生产力的早期选择提供了有力的证据。     

Morphological characterization of the interaction between Diplocarpon rosae and various rose species

Blackspot, caused by Diplocarpon rosae , is the most severe and ubiquitous disease of garden roses, but information is lacking about genotype-specific forms of resistance and susceptibility of the host. Macro- and microscopic analyses of 34 rose genotypes with a defined monoconidial culture black spot inoculum identified susceptible and resistant rose genotypes and further genotype-specific subdivisions, indicating the presence of partial forms of resistance and different resistance mechanisms. In total, eight interaction types were characterized, five representing compatible (types 1–5) and three representing incompatible interactions (types 6–8). The incompatible interactions were characterized by the lack of any visible fungal structures beneath the cuticle (type 8), single-cell necroses (type 7) or necroses of larger cell clusters (type 6), the latter two types with penetration hyphae and haustoria in epidermal cells.     

黑米天然黑(紫)色素的研究

特种稻黑米品种的糙米果皮中,含有大量的稀有天然黑(紫)色素。本文研究了这种色素的提取与分离方法、化学结构及其稳定性,并对其药理作用和应用前景作了简要分析。     

Pelargonium flower-break and pelargonium line pattern viruses in the Netherlands; purification,antiserum preparation,serological identification,and detection in pelargonium by ELISA

Two viruses, detected frequently in the Netherlands in pelargonium, were identified by serology and test plant reactions. Antisera were prepared and an ELISA procedure was developed to detect the viruses in pelargonium.One of the viruses, PFBV-N, proved to be pelargonium flower-break virus. With the antiserum to PFBV-N, it could be detected reliably throughout the year inPelargonium zonale Springtime Irene.The other virus, PLPV-N, was serologically closely related to pelargonium line pattern virus (PLPV) and to pelargonium ring pattern virus (PRPV), as were an old virus isolate from Saturnus, collected in the Netherlands in 1971 (L128), and PLPV isolates from Yugoslavia (PLPV-Y) and Denmark (PLPV-D). There were only minor differences in host-plant reactions between the virus isolates. Based on these tests, PLPV and PRPV are considered as isolates of the same virus, for which, for practical reasons, the name pelargonium line pattern virus is proposed.PLPV could be reliably detected by ELISA inP. zonale Springtime Irene and Amanda throughout the year with only a few exceptions. InPelargonium peltatum Tavira, however, reslts were erratic due to uneven distribution of virus in the plant. Best results were obtained when petioles of fully expanded leaves were tested.