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What makes Haloxylon persicum grow on sand dunes while H. ammodendron grow on interdune lowlands: a proof from reciprocal transplant experiments 被引量:3
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作者 guiqing xu DanDan YU +2 位作者 JiangBo XIE LiSong TANG Yan LI 《Journal of Arid Land》 SCIE CSCD 2014年第5期581-591,共11页
Determining the mechanisms underlying the spatial distribution of plant species is one of the central themes in biogeography and ecology. However, we are still far from gaining a full understanding of the autecologica... Determining the mechanisms underlying the spatial distribution of plant species is one of the central themes in biogeography and ecology. However, we are still far from gaining a full understanding of the autecological processes needed to unravel species distribution patterns. In the current study, by comparing seedling recruitment, seedling morphological performance and biomass allocation of two Haloxylon species, we try to identify the causes of the dune/interdune distribution pattern of these two species. Our results show the soil on the dune had less nutrients but was less saline than that of the interdune; with prolonged summer drought, soil water availability was lower on the dune than on the interdune. Both species had higher densities of seedlings at every stage of recruitment in their native habitat than the adjacent habitat. The contrasting different adaptation to nutrients, salinity and soil water conditions in the seedling recruitment stage strongly determined the distribution patterns of the two species on the dune/interdune. Haloxylon persicum on the dunes had lower total dry biomass, shoot and root dry biomass, but allocated a higher percentage of its biomass to roots and possessed a higher specific root length and specific root area by phenotypic traits specialization than that of Haloxylon ammodendron on the interdune. All of these allowed H. persicum to be more adapted to water stress and nutrient shortage. The differences in morphology and allocation facilitated the ability of these two species to persist in their own environments. 展开更多
关键词 HALOXYLON seedling recruitment root distribution biomass allocation species distribution
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Root distribution of three co-occurring desert shrubs and their physiological response to precipitation 被引量:4
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作者 guiqing xu Yan Li 《Research in Cold and Arid Regions》 2009年第2期120-127,共8页
Root distribution of three desert shrubs,Tamarix ramosissima Ledeb.,Haloxylon ammodendron(C.A.Mey.) Bunge and Reaumuria soongorica(Pall.) Maxim.was investigated under co-occurring conditions using a method for excavat... Root distribution of three desert shrubs,Tamarix ramosissima Ledeb.,Haloxylon ammodendron(C.A.Mey.) Bunge and Reaumuria soongorica(Pall.) Maxim.was investigated under co-occurring conditions using a method for excavating the whole root system.Assimilation shoot water potential and transpiration rates were monitored during the wet-dry cycle.Leaf-specific apparent hydraulic conductance and the index of water stress impact for the three species were calculated from shoot water potential and transpiration rate.The results showed that,along the soil profile,the root system of T.ramosissima mainly distributed at 50 to 310 cm interval,with an average total absorbing root-surface area of 30,249.2 cm2 per plant;the root system of H.ammodendraom distributed at 0 to 250 cm interval with an average total absorbing root-surface area of 12,847.3 cm2 per plant;the root system of R.soongorica distributed at 0-80 cm interval,with an average total absorbing root-surface area of 361.8 cm2.The root distribution shows the following:T.ramosissima uses groundwater as its main water source;H.ammodendraom uses both groundwater and rainwater;and R.soongorica uses rainwater only.During the wet-dry cycle,the hydraulic parameters of T.ramosissima showed no responses to precipitation.R.soongorica responded most significantly,and the responses of H.ammodendraom were intermediate.In conclusion,the plant response to rain events is closely related to their root distribution and plant water-use strategy. 展开更多
关键词 soil water content root distribution assimilation shoot water potential transpiration rate leaf-specific apparent hydraulic conductance
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Copper(Ⅱ) Acetylacetonate: An Efficient Catalyst for Huisgen- Click Reaction for Synthesis of 1,2,3-Triazoles in Water
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作者 Yuqin Jiang Xingfeng Li +6 位作者 Xiyong Li Yamin Sun Yaru Zhao Shuhong Jia Niu Guo guiqing xu Weiwei Zhang 《Chinese Journal of Chemistry》 SCIE CAS CSCD 2017年第8期1239-1245,共7页
An efficient and green copper(Ⅱ) acetylacetonate-catalyzed protocol for the Huisgen-click reaction in water at 100℃ has been established. The protocol was not only suitable for the reaction between organic azides ... An efficient and green copper(Ⅱ) acetylacetonate-catalyzed protocol for the Huisgen-click reaction in water at 100℃ has been established. The protocol was not only suitable for the reaction between organic azides and alkynes, but also suitable for one-pot three-component reaction among alkyl halides, NaN3 and alkynes. 展开更多
关键词 copper(Ⅱ) acetylacetonate Huisgen-click reaction WATER ALKYNES ONE-POT
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