排序方式: 共有56条查询结果,搜索用时 15 毫秒
1.
通过对高寒草甸生态系统金露梅灌丛、矮嵩草草甸、围栏矮嵩草草甸以及模拟地球增温效应下5种植物繁殖投入和生长特性的测定,结果表明,矮嵩草、麻花艽、苔草以及美丽风毛菊的叶长沿对照矮嵩草草甸、0TC、围栏以及金露梅灌丛呈现上升趋势,只是灌丛中苔草和麻花艽两种植物的叶长较围栏和OTC有所下降,而环境变化对植物的叶宽的影响较小。苔草在金露梅灌丛中的繁殖投入最大,其次是矮嵩草草甸和围栏,OTC中苔草的繁殖投入几乎为零。围栏与矮嵩草草甸内苔草的繁殖投入差异不显著,而两者中植物的繁殖投入与金露梅灌丛相比,差异性显著(P<0.05)。矮火绒草在矮嵩草草甸中的繁殖投入最大,其次是0Tc和围栏,灌丛中矮火绒草的繁殖投入最小。OTC与矮嵩草草甸内矮火绒草的繁殖投入差异不显著,而OTC与围栏中矮火绒草的繁殖投入差异性显著(P<0.05)。由此我们可以得出一个结论:繁殖投入随环境梯度的变化,反映了植物繁殖对策和繁殖投入在整个生活史特征中的可塑性。 相似文献
2.
全球变暖对鄂尔多斯地区水文情势影响的初步分析 总被引:2,自引:0,他引:2
傅国斌 《干旱区资源与环境》1994,8(1):53-61
本文在分析鄂尔多斯地区历史时期(全新世高温期、千年尺度、近四十年)气候冷暖与干湿情景的基础上,着重讨论了未来全球变暖对区域水文情势的影响。 相似文献
3.
试验选取鲁中山区的3个大樱桃温室,进行从冬季扣棚开始至大樱桃升温期间温度等气象要素观测,同时结合温室管理人员对扣棚时间、升温时间的记录以及温室大樱桃的生长状况,研究温室大樱桃的扣棚时间和最合适的升温时间。结果表明,鲁中山区温室大樱桃扣棚时间在12月中下旬,当该时期外界温度下降至-19.1℃时,花芽冻坏率为30%,建议在该时期强冷空气来临之前扣棚;升温时间在次年1月上旬,升温时间要在满足需冷量的前提下,根据试验结果,7.2℃模型的最小需冷量为1 070 h,0~7.2℃模型的需冷量为484 h。 相似文献
4.
Alwyn Sowerby Bridget Emmett Albert Tietema Marc Estiarte Steven Hughes 《Soil biology & biochemistry》2005,37(10):1805-1813
Climate change constitutes a serious threat for European heathlands as unlike other sources of damage, such as over-grazing, local remediation is not a possibility. Within the large pan-European projects, CLIMOOR and VULCAN, the effect of periodic drought and increased temperature were investigated in four heathland ecosystems along a geographical and climatic gradient across Europe. Fluorogenically labelled substrates for four enzymes (glucosidase, sulphatase, phosphatase, leucine amino peptidase) were used to measure extra-cellular enzyme activity in soil samples from each of the CLIMOOR sites. Microbial extra-cellular enzyme production is linked to microbial activity as well as soil physico-chemical properties, making soil enzymes one of the more reactive components of terrestrial ecosystems and potentially excellent indicators of soil microbial functional status and diversity.Across all sites and over all the substrates, organic matter content was exponentially, inversely related to enzyme activity. Although the increase in temperature produced by the CLIMOOR roofs was small (on average 0.9 °C), this was sufficient to increase enzyme activity in all sites (on average by 45%). The increase was within the range of seasonal variability at each of the sites. The effect of drought on enzyme activity was more pronounced in the Northern European sites than the southern European, and most moisture limited, site. This suggests that the effect of temperature increases may be observed across all regions; however, the soils of northern Europe may be more sensitive to changes in rainfall patterns than more moisture limited Southern European soils. 相似文献
5.
Seasonal patterns of root-surface phosphatase activities in a Mediterranean shrubland. Responses to experimental warming and drought 总被引:2,自引:0,他引:2
Mediterranean ecosystems are water limited and the current general circulation Models (GCM) and ecophysiological models forecast
a warming and a further increase of drought in the next decades. A stronger water stress can decrease the capacity for nutrient
absorption by plants. We conducted a field experiment to simulate forecasted drought and warming in a Mediterranean calcareous
shrubland to assess the performance of root-surface phosphatase activities of the dominant shrub Globularia alypum. These enzyme activities were higher in autumn and spring, when the climate conditions were optimal for plant activity, than
in summer or winter, when there was either lack of water or cold temperatures. A decrease in soil moisture in drought plots
decreased root-surface phosphatase activity (29% in summer and 25% in autumn). The decrease in root-surface phosphatase activity
in drought plots coincided with a decrease in P leaf concentrations and P accumulation in aboveground biomass and loss of
photosynthetic capacity of some dominant shrub species of this ecosystem, and with a tendency to increase total soil-P. These
results suggest that the expected drier conditions in this Mediterranean shrubland in the next decades will slow down the
P uptake by plants, thereby, diminishing the P contents in biomass and increasing total P contents in soil in non-available
forms and that this can be, in part, attributable to a result of the decrease in root-surface phosphatase activity. 相似文献
6.
利用桓仁县1953~2010年的气温和降水资料,采用线性趋势分析、Mann-Kendall检测和de Martonne干燥度方法对桓仁县近58年的气温和降水的变化序列进行线性趋势分析和突变检测。结果表明,近58年桓仁县年平均气温、年平均最高气温、年平均最低气温均呈上升趋势,年降水量呈减少趋势,年干燥度呈下降趋势;桓仁县年平均气温的突变点出现在1978年,年平均最高气温突变点出现在1987年,年平均最低气温突变点出现在1982年;年降水量没有突变年发生,年干燥度未发生突变现象。近58年来桓仁县气候变化的总体趋势呈暖干化趋势变化。 相似文献
7.
Clay is generally considered an important stabiliser that reduces the rate of decomposition of organic matter (OM) in soils. However, several recent studies have shown trends contradicting this widely held view, emphasising our poor understanding of the mechanisms underlying the clay effects on OM decomposition. Here, an incubation experiment was conducted using artificial soils differing in clay content (0, 5, and 50%) at different temperatures (5, 15, and 25 °C) to determine the effects of clay content, temperature and their interaction on fresh OM decomposition. CO2 efflux was measured throughout the experiment. Phospholipid fatty acids (PLFAs), enzyme activities, microbial biomass carbon (MBC), and dissolved organic carbon (DOC) were also measured at the end of the pre-incubation and incubation periods in order to follow changes in microbial community structure, functioning, and substrate availability. The results showed that higher clay contents promoted OM decomposition probably by increasing substrate availability and by sustaining a greater microbial biomass, albeit with a different community structure and with higher activities of most of the extracellular enzymes assayed. Higher clay content induced increases in the PLFA contents of all bacterial functional groups relative to fungal PLFA content. However, clay content did not change the temperature sensitivity (Q10) of OM decomposition. The higher substrate availability in the high clay artificial soils sustained more soil microbial biomass, resulting in a different community structure and different functioning. The higher microbial biomass, as well as the changed community structure and functions, accelerated OM decomposition. From these observations, an alternative pathway to understanding the effects of clay on OM decomposition is proposed, in which clay may not only accelerate the decomposition of organic materials in soils but also facilitate the SOM accumulation as microbial products in the long term. Our results highlight the importance of clay content as a control over OM decomposition and greater attention is required to elucidate the underlying mechanisms. 相似文献
8.
中国夏玉米和冬小麦近年生育期变化及其与气候的关系 总被引:4,自引:0,他引:4
作物物候期受气候条件和人为耕作的共同影响,而水热气候条件又直接影响着人为耕作时间。全球变暖背景下温度增加的趋势在近年来出现了停滞现象,针对这一新的气候变化特征,本研究选取作物物候观测和气象观测的站点数据,利用经典的统计学方法分析2000—2013年中国夏玉米和冬小麦主要物候期的变化趋势和空间分布,及作物生育期与对应水热条件的相关关系。研究发现:夏玉米和冬小麦各主要物候期均呈现一定程度的延后,其中64%的站点显示夏玉米成熟期延后,冬小麦成熟期延后的站点数比例达78%。研究期间,夏玉米和冬小麦的生育期历时对温度和降水变化均比较敏感,88%和64%的站点分别显示出夏玉米和冬小麦的生育期历时与平均温度之间呈负相关关系,而71%和77%的站点显示夏玉米和冬小麦生育期历时与年均降水量呈正相关关系。本研究时段内的气温变化也不同于一般性认为的单调升温,夏玉米生育期对应的平均温度呈增加和降低趋势的站点数基本相同,但显示降水量增加的站点较多,达到总站点数的68%;而冬小麦整个生育期显示冷干化趋势的站点居多,显示温度降低和降水量下降的站点数均占总站点数的60%以上。此外,本研究还用轮作站点探讨说明了可以利用年值气候数据替代生育期气候数据分析夏玉米和冬小麦轮作的物候和生育期特征。本研究通过站点数据证实了作物生长发育过程对气候变化的敏感性,新的气候条件下我国夏玉米和冬小麦的物候也对应产生了新的特征。 相似文献
9.
Carbon (C) and nitrogen (N) fluxes are largely controlled by the small but highly bio-reactive, labile pools of these elements in terrestrial soils, while long-term C and N storage is determined by the long-lived recalcitrant fractions. Changes in the size of these pools and redistribution among them in response to global warming may considerably affect the long-term terrestrial C and N storage. However, such changes have not been carefully examined in field warming experiments. This study used sulfuric acid hydrolysis to quantify changes in labile and recalcitrant C and N fractions of soil in a tallgrass prairie ecosystem that had been continuously warmed with or without clipping for about 2.5 years. Warming significantly increased labile C and N fractions in the unclipped plots, resulting in increments of 373 mg C kg−1 dry soil and 15 mg N kg−1 dry soil, over this period whilst clipping significantly decreased such concentrations in the warmed plots. Warming also significantly increased soil microbial biomass C and N in the unclipped plots, and increased ratios of soil microbial/labile C and N, indicating an increase in microbial C- and N-use efficiency. Recalcitrant and total C and N contents were not significantly affected by warming. For all measured pools, only labile and microbial biomass C fractions showed significant interactions between warming and clipping, indicating the dependence of the warming effects on clipping. Our results suggest that increased soil labile and microbial C and N fractions likely resulted indirectly from warming increases in plant biomass input, which may be larger than warming-enhanced decomposition of labile organic compounds. 相似文献
10.
以黑龙江省三股线高架桥的实测温度数据为依据,对竖向温度梯度的变化规律进行了研究,得出了该桥的竖向升温模式;并对该升温模式、铁路桥规和公路桥规规定的竖向升温模式产生的温度自应力及外约束应力进行了计算与对比分析.结果表明,箱梁竖向最大升温温差发生在每天14时左右,1a中9月份的竖向升温温差相对较大;运用本地区竖向升温模式计算的混凝土拉应力略大于现行公路规范计算值,小于现行铁路规范计算值. 相似文献