针对RXRα的元宝草抗肿瘤活性成分研究

在核受体RXRα药理筛选模型指导下,对元宝草(Hypericum sampsonii Hance)进行抗肿瘤活性成分研究,分离得到3个化合物,利用MS、NMR等波谱技术鉴定为槲皮素(1) 、大黄素-6-甲醚(2)、叶绿素a(3).大黄素-6-甲醚和叶绿素a针对RXRα有活性,有效浓度分别为 0.1、20 μg/mL,两者均首次从该属植物中分离得到.这也是首次以RXRα为靶点对中草药进行的抗肿瘤活性成分研究.     

海藻糖降解酶抑制因子的研究

研究了一系列因素对食尼古丁节杆菌D-97胞内海藻糖降解酵的抑制作用,发现有效霉素(井冈霉素)和乙酸能有效抑制海藻糖降解酶的活性,抑制率最大分别达到87．13％和85．16％．同时研究了它们对海藻糖转化率的影响,发现有效霉素能提高海藻糖转化率,最大增幅达17．44％,而乙酸却降低了转化率。     

高寒矮嵩草草甸群落植物多样性和初级生产力对模拟降水的响应

通过野外控制实验,研究了高寒矮嵩草草甸群落植物多样性、初级生产力对模拟降雨条件的响应.结果表明: 1 在植物生长期 6月 ,增加降雨20%、增加降雨40%,植物群落物种多样性指数 H 和均匀度指数 J 分别比对照提高了0.188和0.011、0.735和0.076,生长期 7月 增加降雨20%物种H和J提高了0.409和0.07; 2 禾草类:增加降雨20%处理的地上生物量与对照相比没有明显的显著性差异 P>0.05 ,增加降雨40%处理的地上生物量与对照相比差异显著 P<0.05 ,说明过多增加降雨会抑制禾草的生长发育.杂类草:减少降雨50%处理的地上生物量与对照相比差异显著 P<0.05 ,其地上生物量对减少降雨的反映比较敏感.莎草类:其地上生物量对增加和减少降雨都没有显著变化; 3 0～10cm和0～30cm土层地下生物量均在增加降雨20%时最高,地下生物量的总量也在增加降雨20%时最高; 4 矮嵩草草甸地下生物量与地上生物量、总生物量的比值接近于生长季末时最大,且在模拟增加降雨20%的水平时,7、8、9月份地下和地上生物量较其它处理组高.     

荒漠生态系统对大气CO2浓度升高响应的干湿年差异

利用一个基于详细生理学过程的生态系统模型PALS-FT,通过模拟实验分析了美国亚利桑那州(Arizona)首府凤凰城(Phoenix)市西郊的Larreatridentata荒漠生态系统在干湿年份(1988-2002年)对大气CO2浓度升高响应的差别。结果表明,生态系统地上净初级生产力(ANPP)和土壤有机质年累积速率(SOM)均随大气CO2浓度升高而呈非线性(湿年)或线性(正常年和干年)增加;所有年份的土壤N含量(Nsoil)则呈非线性显著下降。ANPP与SOM的绝对变化量总是湿年大于正常年和干年,相对变化量则与所分析的CO2处理水平有关;Nsoil的绝对变化量和相对变化量均为湿年大于正常年和干年。不同功能型的植物ANPP对大气CO2浓度升高的绝对变化量均为湿年大于正常年和干年;相对变化量则因具体植物功能型而异,灌木和亚灌木为干年大于正常年和湿年,一年生C3和C4草本均为湿年大于正常年和干年。因此,无论是生态系统水平还是植物功能型(或物种)水平,荒漠生态系统对未来大气CO2浓度升高的响应都将受降水格局的显著影响。     

鼎湖山流域下游浅层地下水动态变化及其机理研究

全球变暖和降水格局的改变将如何影响下垫面水文过程是一个被普遍关注的重大科学问题,然而要阐述其内在联系首先必须排除人类活动及土地格局变化的影响。论文以严格保护下的鼎湖山自然保护区为研究对象(排除人类活动及土地格局变化的影响),以其完整集水区下游区域地下水测井系统测定的地下水位数据为基础,拟阐述全球变暖和降水格局改变对该地区地下水位多年变化动态及趋势的影响机制。结果表明:2000年至2009年10 a间鼎湖山流域下游浅层地下水位由2000年的-2.27 m上升到2009年的-1.81 m,年均极显著(p = 0.005)上升0.043 m·a^-1;地下水位干湿季差异显著,湿季地下水位显著(p < 0.001) 高于干季,分别为-1.87±0.23 m、-2.25±0.15 m。时间序列上,干季地下水位无显著(p = 0.190)变化,湿季(1999-2009年)地下水位呈极显著(p = 0.002)上升趋势;日地下水位变异系数CV_wt = 0.20明显小于日降水量 CV_p = 2.77,日地下水位动态与前40 d的日降水量有关;地下水位的变化不能用同期内降水量变化(p = 0.294)解释,分析认为降水格局的变化是导致地下水位上升的基本原因。该研究对评估降水格局改变和全球变暖环境下,地下水资源的变化趋势有重要指示意义。     

荒漠区地表凋落物分解对季节性降水增加的响应

为探讨季节性降水增加对荒漠生态系统凋落物分解的影响, 在古尔班通古特沙漠南缘, 选择粗柄独尾草(Eremurus inderiensis)叶、尖喙牻牛儿苗(Erodium oxyrrhynchum)叶、尖喙牻牛儿苗茎、沙漠绢蒿(Seriphidium santolinum)茎4种凋落物样品, 在2009-2011年研究了模拟季节降水增加(冬春增雪、夏季增水)和自然降水处理下凋落物的分解。持续2年的分解实验表明: (1)各组分凋落物的质量损失过程可以用负指数衰减方程较好地拟合(R²> 0.90); 经过637天的分解, 各组分凋落物质量残留率在自然降水、冬春增雪、夏季增水处理下均无显著性差异(p > 0.05)。粗柄独尾草叶、尖喙牻牛儿苗叶、尖喙牻牛儿苗茎、沙漠绢蒿茎在自然降水处理下的质量残留率分别为40.59%、35.50%、36.00%和63.96%; (2)各组分凋落物的质量残留率与N残留率显著正相关, 凋落物N的损失快于其质量损失, 且初始N含量与分解速率显著正相关(r = 0.60, p = 0.038), C/N解释了71%的地面凋落物分解速率。研究表明, 季节性的短暂降水增加对荒漠区地表凋落物分解没有显著影响, 凋落物初始化学组成是预测荒漠区地表凋落物分解的重要因素。     

Characteristics of normalized difference vegetation index of biological soil crust during the succession process of artificial sand-fixing vegetation in the Tengger Desert,Northern China

Aims Biological soil crust (hereafter crust) affects normalized difference vegetation index (NDVI) values in arid desert ecosystems. This study aimed to demonstrate the feasibility of combining crust NDVI values with meteorological data to distinguish the crust successional stage at the regional scale. Meanwhile, the characteristics of crust NDVI could provide the basis for the error analysis of NDVI-based surface ecological parameters estimation in desert ecosystems. We also suggested the optimum periods for crust observation based on the multi-temporal remote sensing images.Methods NDVI values of five types of dominant crusts, three typical sand-fixing shrubs and bare sand were collected by spectrometer in the field. Crusts and shrubs were randomly selected in revegetated areas established in 1956, 1964, and 1973 at Shapotou, which is on the southeastern edge of the Tengger Desert. We used the space-for-time method to study the characteristics of crust NDVI values and their responses to precipitation and temperature during the succession process of artificial sand-fixing vegetation. Additionally, we evaluated the contribution of crust NDVI values to the whole ecosystem NDVI values by comparing the NDVI values of crusts, shrubs and bare sand.Important findings 1) With succession process of the artificial sand-fixing vegetation, the crust NDVI values significantly increased. Among different crust types, we found the following order of NDVI values: Didymodon vinealis crust > Bryum argenteum crust > mixed crust > lichen crust > algae crust. 2) Crust NDVI values were significantly affected by precipitation, temperature and their interaction, and the influences showed significant seasonal differences. Furthermore, we found significantly linear correlations between crust NDVI value and precipitation, and between crust NDVI value and the shallow soil moisture content covered by crust. A significantly negative linear correlation between daily mean temperature and crust NDVI value, and a significantly exponential correlation between the surface temperature of crust and its NDVI value. With the succession process of artificial sand-fixing vegetation, the response of crust NDVI value to precipitation and temperature became more sensitive. In addition, the response of crust NDVI value to temperature was more sensitive in spring than in summer, while that to precipitation was less sensitive in spring than in summer. 3) Moss crust NDVI value was significantly higher than that of shrubs and bare sand after the rainfall event in spring, while shrubs NDVI value was significantly higher than that of crust after the rainfall event in summer. Considering the coverage weights of different ground features in sand-fixing areas, crust NDVI values contributed 90.01% and 82.53% in spring and summer, respectively, to the regional NDVI values, which were higher than those of shrubs (9.99% and 17.47% in spring and in summer, respectively). Additionally, with the succession process of artificial sand-fixing vegetation, crust NDVI values contributed more, while shrubs contributed less to regional NDVI values.     

Responses of soil respiration with biocrust cover to water and temperature in the southeastern edge of Tengger Desert,Northwest China

Aims Soil respiration of the lands covered by biocrusts is an important component in the carbon cycle of arid, semi-arid and dry-subhumid ecosystems (drylands hereafter), and one of the key processes in the carbon cycle of drylands. However, the responses of the rate of soil respiration with biocrusts to water and temperature are uncertain in the investigations of the effects of experimental warming and precipitation patterns on CO₂ fluxes in biocrust dominated ecosystems. The objectives of this study were to investigate the relationships of carbon release from the biocrust-soil systems with water and temperature in drylands. Methods Intact soil columns with two types of biocrusts, including moss and algae-lichen crusts, were collected in a natural vegetation area in the southeastern fringe of the Tengger Desert. Open top chambers were used to simulate climate warming, and the soil respiration rate was measured under warming and non-warming treatments using an automated soil respiration system (LI-8150). Important findings Over the whole observational period (from April 2016 to July 2016), soil respiration rates varied from -0.16 to 4.69 μmol·m^-2·s^-1 for the moss crust-covered soils and from -0.21 to 5.72 μmol·m^-2·s^-1 for the algae-lichen crust-covered soils, respectively, under different rainfall events (the precipitations between 0.3-30.0 mm). The mean soil respiration rate of the moss crust-covered soils is 1.09 μmol·m^-2·s^-1, which is higher than that of the algae-lichen crust-covered soils of 0.94 μmol·m^-2·s^-1. The soil respiration rate of the two types of biocrust-covered soils showed different dynamics and spatial heterogeneities with rainfall events, and were positively correlated with precipitation. The mean soil respiration rate of the biocrust-covered soils without warming was 1.24 μmol·m^-2·s^-1, significantly higher than that with warming treatments of 0.79 μmol·m^-2·s^-1 (p < 0.05). By increasing the evaporation of soil moisture, the simulated warming impeded soil respiration. In most cases, soil temperature and soil respiration rate displayed a similar single-peak curve during the diel cycle. Our results show an approximately two hours’ lag between soil temperature at 5 cm depth and the soil respiration rate of the biocrust-covered soils during the diel cycle.     

施用有机肥对高砷红壤中小白菜砷吸收的影响

通过盆栽试验,研究了施用猪粪和鸡粪条件下红壤中的砷对小白菜生长和吸收的影响及土壤有效态砷含量的变化.结果表明：向高砷红壤中施用猪粪和鸡粪两种有机肥均使小白菜的生物量有不同程度的增加,其中,施用猪粪处理的小白菜生物量显著高于对照处理(P<0.05);猪粪和鸡粪两种有机肥的施用可导致土壤有效砷含量明显提高,施用猪粪后土壤有效砷含量增幅达394.9%～1033.6%,而施用鸡粪的土壤有效砷含量增幅为30.4%～94.1%; 施用有机肥明显促进了小白菜对砷的吸收,其中猪粪处理下小白菜的砷吸收量比对照增加20.7%～53.9%. 根据本研究结果,对砷含量较高的高风险农田,施用猪粪、鸡粪等有机肥可能会在一定程度上提高土壤有效砷含量和作物对砷的吸收量,使农产品质量和环境风险增加.     

种植模式与灌溉定额对机采长绒棉冠层不同层次光截获与产量形成的影响

优化机采长绒棉株行距配置与灌溉定额,是构建棉花合理个体与群体结构,提高产量和机采脱叶效率,实现农机农艺融合的重要途径。本研究采用裂区试验设计,在相同种植密度条件下,设置了一膜三行等行距(S3)、一膜四行宽窄行(S4)和一膜六行宽窄行(S6)3种种植模式,副区为3150 m³·hm^-2(W1,中度亏缺,田间持水量50%)、4050 m³·hm^-2(W2,轻度亏缺,田间持水量75%)和4980 m³·hm^-2(W3,充分灌溉,田间持水量100%)3个灌溉定额,研究了不同处理对长绒棉各层次冠层结构、光合有效辐射传输规律和产量形成的影响机制。结果表明：扩大行距和轻度亏缺灌溉可以降低生育后期叶面积指数下降速率,增加下部冠层的光合有效辐射透过率(T_r);在S3W2处理下,冠层上、中、下各层T_r分布均匀,接近2∶2∶1的比例;虽然冠层整体光截获率(I_n)有降低趋势,但下层光截获率增加,显著提高了生殖器官的...