Relative importance of water, energy, and heterogeneity in determining regional pteridophyte and seed plant richness in China

Environmental variables, such as ambient energy, water availability, and environmental heterogeneity have been frequently proposed to account for species diversity gradients. How taxon-specific functional traits define large-scale richness gradients is a fundamental issue in understanding spatial patterns of species diversity, but has not been well documented. Using a large dataset on the regional flora from China, we examine the contrast spatial patterns and environmental determinants between pteridophytes and seed plants which differ in dispersal capacity and environmental requirements. Pteridophyte richness shows more pronounced spatial variation and stronger environmental associations than seed plant richness. Water availability generally accounts for more spatial variance in species richness of pteridophytes and seed plants than energy and heterogeneity do, especially for pteridophytes which have high dependence on moist and shady environments. Thus, pteridophyte richness is disproportionally affected by water-related variables; this in turn results in a higher proportion of pteridophytes in regional vascular plant floras (pteridophyte proportion) in wet regions. Most of the variance in seed plant richness, pteridophyte richness, and pteridophyte proportion explained by energy is included in variation that water and heterogeneity account for, indicating the redundancy of energy in the study extent. However, heterogeneity is more important for determining seed plant distributions. Pteridophyte and seed plant richness is strongly correlated, even after the environmental effects have been removed, implying functional linkages between them. Our study highlights the importance of incorporating biological traits of different taxonomic groups into the studies of macroecology and global change biology.     

Current status and future tendency of lake eutrophication in China

Current trophic status and trend of Chinese freshwater lakes were investigated in this study. The results showed that all lakes studied were commonly undergoing the eutrophica-tion process, water quality decreased and lake's ecosystem is being declined. Most of the urban lakes are facing serious eutrophication. Many medium-sized lakes are in metrophic or eutrophic status, some local water are even approaching the hypertrophic level. The famous five freshwater lakes in China have entered into eutrophication in the condition of higher nutrient load. Lake Taihu, Hongze and Caohu are already in eutrophic state. Eutrophic lakes are mainly distributed in the middle and lower reaches of Yangtze River and Yungui plateau. Lake eutrophication developed rapidly. Among the 34 lakes studied in 1970's, most of lakes were in the mesotrophic status, mesotrophic water area accounted for 91.8%. With the nine year of 1978-1987 the area percentage of oligotrophic lakes decreased from 3.2% to 0.53%, and that of eutrophic lakes increased from 5.0% to 55.01%. Recent data showed 57.5% lakes were in eutrophic and hyper trophic status of the 40 surveyed lakes. Eutrophic trend of Lake Taihu, Chaohu and Xuanwu in the region of the middle and lower reaches of Yangtze River was predicated using the ecological stress model. The results showed that in 2008 Lake Taihu, Chaohu and Xuanwu might be of eutrophication, eutrophication and hypertrophication, respectively if no control measurement is taken. Provided the pollution water treatment rate is 60% in 2030, approximately 30 billion ton pollution water would still be discharged directly in the lakes. Therefore, in 2030 the urban lakes in China might be eutrophication or hypertrophication, and most of the medium-sized lakes at the urban-rural fringe might be in eutrophication or hypertrophication. The famous five biggest freshwater lakes in China might be eutrophication if control countermeasures are taken as now. Lake eutrophication has become a serious environmental problem in China. Based on the domestic and foreign experiences of the eutrophic control technologies, both nutrient pollution control and lake ecological restoration should be carried out and this may be the guidance for the eutrophic control of lakes in China.     

Short-term toxic effects of chlorobenzenes on broadbean (Vicia faba) seedlings

The root growth, changes in superoxide dismutase (SOD, EC 1.15.1.1) activity, malonyldialdehyde (MDA) and total soluble protein level of broadbean (Vicia faba) seedlings were researched at different soil concentrations of chlorobenzene (CB), 1,2,4-trichlorobenzene (TCB) and hexachlorobenzene (HCB). The results showed that root growth of seedlings was interrupted after 5d of 50-200 μg ·g-1 TCB treatment. During a 3 d of recovery period, root growth was, however, restored to some extent although there was a delay in returning to the control level. The total soluble protein content in seedlings increased with TCB concentration and duration of exposure. Effect of TCB stress on SOD activity in seedlings displayed a significant dose-effect relationship for 1-5 d of 50-200 μg ·g-1 treatment. When broadbean seedlings were placed in clean tap water for 3 d following exposure to 5 d of TCB stress to clear tap water for 3 d, SOD activity at 50 μg ·g-1 TCB recovered towards control level (P>0.05) while a signi     

Raman spectroscopic study on structure of human immunodeficiency virus (HIV) and hypericin-induced photosensitive damage of HIV

Viruses are agents of some of the most destruc- tive diseases afflicting plants and animals[1]. Viruses also play a central role in experimental methods of molecular and cellular biology, especially in modern genetic engineering[1]. Raman spectroscopy is a pow-erful tool for studying the structure of the whole virion. A number of researches are limited to the conforma-tion of viruses, involving only nucleic acid (RNA or DNA) and its coat protein[1]. Literatures can be found concerning Raman…     

不同年龄大鼠血清抗中肾旁管激素水平与卵巢储备功能的关系

目的探讨不同年龄组雌性大鼠血清抗中肾旁管激素（AMH）变化的规律和原因,探讨AMH在预测卵巢储备功能方面的作用。方法SD雌性大鼠分为幼年组、成年组和老年组。运用ELISA和免疫荧光化学方法,检测血清和卵巢中AMH的表达。结果血清AMH水平,幼年组5.26±0.13 ng/mL,成年组2.34±0.11 ng/mL,老年组0.69±0.04 ng/mL,随年龄增长显著降低（P〈0.001）。卵巢中AMH阳性卵泡的数量,幼年组19.5±1.3,成年组10.8±1.5,老年组3.8±0.6,随年龄增长显著降低（P〈0.001）。结论随着大鼠年龄增长,卵巢中分泌AMH的生长卵泡数量减少,使血清AMH水平下降,提示卵巢储备功能下降。AMH是一个较好的检测卵巢储备功能的指标。     

城市化对长三角地区主要城市植被物候的影响

基于长三角地区1998—2005年NDVI时间序列影像,利用移动平均法计算了上海、杭州、南京、常州、无锡和苏州6个城市的城区与各缓冲带的平均植被物候,并分析了城区与各缓冲带平均物候的差异及其与距城区距离间的关系.结果表明,1998—2005年间,研究区的城市化导致城区内植被始绿期提前、终绿期推后、生长期变长、NDVI的年内极差减小,离城区越近的缓冲带这些变化越明显.总体看来,城市化导致城区周围4 km范围内的植被始绿期明显提前,而终绿期推后、生长期变长、NDVI年内极差减小的趋势在离城区约10 km范围内的变化显著;城区与缓冲带植被的生长期差值和NDVI年内极差差值均与离城区距离存在显著的对数关系.     

新疆北部鹅喉羚的食性分析

2006年10月至2007年8月,作者采用粪便显微分析法研究了新疆卡拉麦里山有蹄类保护区鹅喉羚的四季食性以及冬季绵羊的食性.结果发现:鹅喉羚共采食16科47种植物;不同季节间鹅喉羚食性有明显变化,秋季采食7科24种植物,冬季采食6科17种植物,春季采食16科41种植物,夏季采食12科30种植物;藜科、禾本科植物是鹅喉羚全年的主要食物来源,占鹅喉羚总采食量的38.8～85.1%,非禾本科草本植物也在鹅喉羚食物组成中占有重要地位;春季短命和类短命植物对鹅喉羚有重要意义,占春季采食量的27%.针茅在四季都是鹅喉羚采食的主要植物;春季和夏季鹅喉羚采食较多的驼绒藜,秋季和冬季梭梭被较多采食.由于干旱胁迫,春季、夏季和秋季鹅喉羚喜食含水量较高的多根葱、骆驼蹄瓣、粗枝猪毛菜等非禾本科草本植物.冬季鹅喉羚与绵羊间的生态位宽度相近,食物重叠指数高达76.6%,绵羊与鹅喉羚之间食物竞争明显.     

地衣芽胞杆菌在植物病害生物防治中的应用

随着对地衣芽胞杆菌研究的不断深入和其杀虫、抗菌、生物降解等多种生物学活性的发现,地衣芽胞杆菌被认为是芽胞杆菌属中最具有生物防治应用价值的菌种之一。本文论述了地衣芽胞杆菌的生物学特性及其防治植物病害的四种主要作用机制,包括竞争、分泌抗菌物质、诱导植物系统抗性和促进植物生长;介绍了地衣芽胞杆菌在水稻、棉花、番茄、芒果、辣椒等多种大田作物和经济果蔬上的应用现状和生物防治效果;并讨论了其在生防应用过程中存在的主要问题,为今后地衣芽胞杆菌在生物防治方面的研究提供理论依据和应用参考。