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941.
State of the art and research needs for the impact category eutrophication are discussed. Eutrophication is a difficult impact
category because it includes emissions to both air and water — both subject to different environmental mechanisms — as well
as impacts occurring in different types of terrestrial and aquatic ecosystems. The possible fate processes are complex and
include transportation between different ecosystems. In some recent approaches, transportation modelling of air emissions
has been included. However, in general, the used characterisation methods do not integrate fate modelling, which is a limitation.
The definition of the impact indicator needs further research, too. The inclusion of other nutrients than those typically
considered should also be investigated. 相似文献
942.
Abstract. Fine-scale structure of a species-rich grassland was examined for seasonal changes caused by manipulated changes in the availability of above and below-ground resources (additional illumination with the help of mirrors and fertilization) in a field experiment. If changes induced by fertilization — which are expected to lead to a reduction in small-scale diversity —are due to intensified light competition, they should be compensated for by additional light input. Permanent plots of 40 cm × 40 cm were sampled by the point quadrat method at three angles (60°, 90° and 120° from the horizontal North-South direction), using a laser beam to position the quadrats, in early July and early September. The applied treatments did not cause apparent changes in plant leaf orientation. The degree of spatial aggregation of biomass increased seasonally in fertilized, non-illuminated plots: greater productivity at a constant light supply led to a faster growth rate of potentially dominant species, as compared to the subordinate ones. Additional illumination mitigated this effect of fertilization, indicating that the observed changes in biomass aggregation were due to increased light competition. There was a considerable seasonal decrease of variance ratio (ratio of observed variance of richness at a point and variance expected at random) in fertilized only and in illuminated only plots. In fertilized plots this was due to the positive relationship between biomass aggregation and expected variance of richness. Biomass constancy occurs to be inversely related to deficit in variance of richness. In illuminated plots, in contrast, only the observed variance of richness decreased seasonally, indicating a more uniform use of space by different species. Evidently, a deficit in variance of richness can be caused by drastically different processes, showing that the variance ratio statistic may not have a significant explanatory value in fine-scale community studies. 相似文献
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Summary A rapid exchange procedure using ammonium acetate as an extractant was developed for measurement of cation exchange capacity
(CEC) of plant roots. The CEC values obtained with 1∶100 and 1∶200 root/solution ratios were almost equal, though the values
increased with length of the time of immersion in both the root/solution ratios. The method gave higher CEC values with fresh
roots as compared to dried roots. However, dried milled and dried unmilled roots gave identical values. 相似文献
945.
Vertical structure of Erica umbellata,a representative species of European Ibero-Atlantic dry heaths
The canopy structure of Erica umbellata was studied in order to (a) quantify biomass allocation among several organ types, (b) analyse the possible changes in vertical structure related to season and plant size, and (c) evaluate the effectiveness of non-destructive measures to estimate biomass for a species that is declining in some areas, due to fire and other human disturbances. The study was conducted in NW Spain, sampling E. umbellata plants belonging to three size groups. Destructive (biomass) and non-destructive (frequency, height, diameter) measures were used to characterise the vertical distribution and abundance of photosynthetic, woody, reproductive and dead organs. Allometric equations were calculated to estimate total mass using non-destructive measurements. As E. umbellata increases in size, those organs with a higher renewal rate (leaves, new stems, flowers) increase in the upper strata. Seasonal differences are recorded for the reproductive organs and new stems. A sharp decrease in the green/total phytomass ratio (from 0.51 to 0.17) is observed as plant size increases. Organ biomass can be accurately predicted from total weight and it is also possible to estimate the total weight from non-destructive measures, which provides an easier way of recording data in the field. 相似文献
946.
自然界中多糖类生物质资源十分丰富,然而其复杂的抗降解屏障限制了生物转化的进程.近年来,随着生物质多糖结构的快速解析以及大量多糖降解酶的鉴定研究,针对不同底物结构或产物需求,仿制高效微生物多糖代谢途径,精确定制多糖降解酶系,促进生物质高效转化已成为可能.本文分析中性多糖(纤维素和木聚糖)、碱性多糖(几丁质和壳聚糖)以及酸性多糖(褐藻胶)的精细结构组成与基团性质,总结3类多糖主要降解酶的活性架构特征及其底物精确结合模式.文章还阐述蛋白质工程设计与定制策略,针对酶分子不同功能区的分析,可为酶分子的功能快速设计与改造提供靶点,以获得适宜于工业应用的高效酶分子,此外,根据微生物胞外降解酶系的降解次序与协同关系,可基于应用需求精确定制复杂多糖降解酶系,实现生物质的高效与高值降解转化. 相似文献
947.
Sarah L. Eggers Aleksandra M. Lewandowska Joana Barcelos e Ramos Sonia Blanco‐Ameijeiras Francesca Gallo Birte Matthiessen 《Global Change Biology》2014,20(3):713-723
Ecosystem functioning is simultaneously affected by changes in community composition and environmental change such as increasing atmospheric carbon dioxide (CO2) and subsequent ocean acidification. However, it largely remains uncertain how the effects of these factors compare to each other. Addressing this question, we experimentally tested the hypothesis that initial community composition and elevated CO2 are equally important to the regulation of phytoplankton biomass. We full‐factorially exposed three compositionally different marine phytoplankton communities to two different CO2 levels and examined the effects and relative importance (ω2) of the two factors and their interaction on phytoplankton biomass at bloom peak. The results showed that initial community composition had a significantly greater impact than elevated CO2 on phytoplankton biomass, which varied largely among communities. We suggest that the different initial ratios between cyanobacteria, diatoms, and dinoflagellates might be the key for the varying competitive and thus functional outcome among communities. Furthermore, the results showed that depending on initial community composition elevated CO2 selected for larger sized diatoms, which led to increased total phytoplankton biomass. This study highlights the relevance of initial community composition, which strongly drives the functional outcome, when assessing impacts of climate change on ecosystem functioning. In particular, the increase in phytoplankton biomass driven by the gain of larger sized diatoms in response to elevated CO2 potentially has strong implications for nutrient cycling and carbon export in future oceans. 相似文献
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