共查询到20条相似文献,搜索用时 461 毫秒
1.
Stable carbon isotopes of soil organic matter from 12 sites in the southern Chinese Loess Plateau are reviewed to examine spatial and temporal patterns of C3 and C4 plants in the arid to semiarid monsoonal region during three key periods - last glacial maximum, mid-Holocene, and modern. We have tentatively corrected the effects of atmospheric CO2 concentrations and precipitation amounts on the δ13C endmembers for C3 plants to reconstruct the relative proportion of C4 plants because the δ13C values of C3 plants are variable under different CO2 and climate conditions. The results indicate that C4 grasses increase from northwest to southeast spatially, which is consistent with present-day increasing precipitation and temperature patterns. This suggests that for a monsoon-dominant arid to semiarid region, such as the Loess Plateau, warm-season rainfall is a primary factor limiting C4 plants growth, and thus C4 grasses have been outcompeted by C3 grasses/shrubs under cold-dry climate conditions. However, temporal fluctuations in atmospheric CO2 concentration may also affect plant growth through altering water-use efficiency (WUE). Enhanced drought caused by decreased WUE due to low atmospheric CO2 concentrations during glacial periods, combined with a cold-dry climate, leads to a decline in C4 grasses, canceling out any advantages gained from lowered atmospheric CO2 concentrations. To reconstruct accurately the abundance of C3 and C4 plants in an ecosystem and explore their controlling factors, process-based vegetation models integrating CO2 and climatic parameters interactive with plant physiology are necessary. 相似文献
2.
Water use efficiency of C4 plants is higher than that of C3 plants, and CAM (Crassulaceae Acid Metabolism) plants have the highest water use efficiency. In the desert regions of China, CAM plants are scarce, and C4 plants, especially C4 woody plants, have an important position and role in the desert ecosystem. There are 45 species of C4 woody plants in the desert regions of China, including semi-woody plants, accounting for 6% of the total desert plant species in China, and most of them are concentrated in the families of Chenopodiaceae and Polygonaceae, which are 19 species and 26 species, respectively. The number of C4 herbaceous plants is 107 species, including 48 monocot species and 59 dicot species. C4 woody plants mainly inhabit the northwestern arid desert regions of China west of the Helan Mountains. The drought-resistance and drought-tolerance of C4 herbaceous plants are worse than C4 woody plants, and C4 herbaceous plants mainly inhabit areas with shallow groundwater depth and better water conditions in the desert regions, and are widely distributed along the margins of oases. The abundance of C4 woody plants is closely correlated with drought, but the abundance of C4 herbaceous plants increases with wet conditions. 相似文献
3.
In the field of phylogenetic analyses, the rbcL gene encoded large subunit Ribulose-1,5-biphosphate carboxylase/oxygenase (Rubisco, EC4.1.1.39), which plays a crucial role in the process of photosynthesis for most terrestrial plants, has been considered to be conserved; however, recent controversy regarding rbcL conservation has appeared since it was proposed to be under natural selection within all principal lineages of land plants. In this study, by examining the variation of DNA and protein sequences among 17 species in the family Tamaricaceae, three nonsynonymous mutations were identified to be under positive selection. The favored sites were located in the alph-helix domains of Rubisco, with decreased hydrophobicity and increased entropy, which could facilitate CO2 penetration into the active site of Rubisco. We also found that the expression level of rbcL in different genotypes of Reaumuria soongarica shifted in response to various stresses such as drought, temperature, salt, and light. This study not only sheds light on the functional/structural features of Rubisco in the evolution scenarios from C3-like into C4 in Tamaricaceae but also provides useful information on directing genetic performance to enhance photosynthesis efficiency of desert plants for sustaining fragile desert ecosystems; furthermore, it promotes the ability to cope with desert aridification and global warming. 相似文献
4.
离子在离子液体/水溶液二元系统中的电迁移行为在很多领域受到了越来越多的关注。本文通过研究不同条件下离子液体离子在电极液中的浓度变化,系统地研究了电极溶液酸—碱度,电极溶液中电解质浓度以及离子液体中溶解LiN(CF3SO2)2与否对[C6MIm]+离子电迁移的影响。总的来说,随着电流的增加,[C6MIm]+离子向阴极水溶液的迁移量随之增加,向阳极水溶液的迁移量随之减少;然而N(CF3SO2)2-离子向阳极水溶液的迁移量随之增加,向阴极水溶液的迁移量随之减少。当电极溶液为碱性,[C6MIm]+离子的迁移量明显减少。在电极溶液中溶入LiN(CF3SO2)2时或者将LiN(CF3SO2)2溶入离子液体时,[C6MIm]+离子的迁移量也明显受到抑制。 相似文献
5.
崇明东滩湿地CO2 、CH4和N2O 排放的时空差异 总被引:10,自引:0,他引:10
通过静态暗箱—气相色谱法研究了长江口崇明东滩四类典型湿地(围垦湿地、高潮滩、中潮滩和低潮滩)CO2、CH4和N2O排放特征及影响因素。结果表明,在生长季尺度下,CO2、CH4和N2O均以排放为主;在昼夜尺度下,CO2和CH4在夜间排放量大于白昼排放量,而N2O的排放高峰出现在下午;在潮水退去、潮滩暴露初期,CH4和N2O有大量排放,CO2正好相反。崇明东滩温室气体排放通量自岸向海有明显的梯度变化,总体趋势是越近岸通量值越大。观测与实验表明,温度、潮汐、土壤理化性质、植物和土地利用变化都对温室气体排放通量有明显的影响,其中滨海潮滩湿地特有环境因子潮汐以"淹没—暴露"光滩沉积物的方式控制温室气体的排放。 相似文献
6.
观测了藜科滨藜族(Atripliceae)、樟味藜族(Camphorosmeae)、碱蓬族(Suaedeae)和猪毛菜族(Salsoleae)30种C4植物的同化器官的解剖结构和δ13 C值,共见到12种解剖结构类型。滨藜族包含2种类型,Atriplicoid-Ⅰ型和Atriplicoid-Ⅱ型,它们的差异仅在于结构中是否含有皮下组织。樟味藜族包括3种解剖结构类型,即含有皮下组织的Kochioid-Ⅰ型、叶肉细胞和维管束鞘细胞形成近似于环形的Kochioid-Ⅱ型和不含有皮下组织的Kochioid-Ⅲ型。碱蓬族包含3种类型,Kranz-Suaedoid-Ⅰ型和Kranz-Suaedoid-Ⅱ型结构中具有皮下组织,但是Kranz-Suaedoid-Ⅱ型结构中只具有一层叶肉细胞,这种结构存在于异子蓬属的异子蓬(Borszczowia aralocaspica),而Kranz-Suaedoid-Ⅲ型结构中不具有皮下组织。猪毛菜族植物叶片/同化枝的解剖结构类型有4种,它们的差异在于结构中是否含有皮下组织、次要的较小的维管束的位置以及环形的维管束鞘细胞是否被打断。30种植物的δ13 C值范围-11.1‰~-14.5‰,显示为C4植物,与其同化器官解剖结构相对应。 相似文献
7.
本文介绍了应用碳化理(Li2C2)法进行化学制样测定14C年代获得成功的试验.抑制鋰的升华作用是成功的关键.文中提出了改革鋰反应器冷却装置的根据和方案.试验结果是令人满意的.从CO2到C2H2的转化中碳的收率高达98%(而StC2法为70%左右).本文发表了40个14C年代数据,其中4个进行了互校对比,一致性很好. 相似文献
8.
Gen Wang Yongli Wang Zhifu Wei Baoxiang Wu Zixiang Wang Zepeng Sun Liang Xu Youxiao Wang 《Journal of Paleolimnology》2017,58(2):243-256
Paleoclimate and paleovegetation changes over the last 40 cal ka were recorded by multiple variables in a sediment core from Qingshi, Wudalianchi City, northeast China. The history of vegetation types inferred from n-C27/n-C31 and average chain length of n-alkanes indicates the paleovegetation went through several distinct stages, consistent with pollen records from the study area. Compound-specific carbon isotope composition was also determined for C27, C29 and C31 n-alkanes in the Qingshi core sediments. The relative abundance of C3 and C4 plants was calculated using a binary model and indicates that C3 plants were the dominant input during the last glacial and Holocene. There were, however, shifts in the ratio of C3 to C4 vegetation abundance that correspond to changes in climate conditions. Generally, the long-term trend towards greater C4 plant abundance from the last glacial to Holocene correlated with an increase in pCO2, higher temperature, greater precipitation and more growing season precipitation. Our results suggest that temperature and seasonality of precipitation played a strong role in altering the relative abundance of C3 and C4 plants in the study area. These results provide information for predicting future vegetation changes in response to on-going global warming. 相似文献
9.
Li+,Na+,K+/Cl-,SO2-4-H2O五元体系相图对于硫酸钠亚型富锂卤水分离提取锂盐、锂辉石加工利用和锂盐产品的开发利用工艺制定都有指导作用。20世纪50年代曾有人研究过这一体系25 ℃时的相图,限于当时的科研水平,液相组成确定不准确,对平衡固相的判断,后来诸多研究结果证明也有错误。50多年来再没有人研究这一五元体系相图。利用我们提出的Li+,Na+,K+/Cl-,SO2-4-H2O六元体系热力学模型,对该五元体系的平衡溶液组成和正确的平衡固相进行理论预测,给出了该体系的完整相图。结合硫酸锂混盐分离、加工实例阐述了该五元体系相图的应用。 相似文献
10.
《Polar Science》2007,1(1):55-62
To evaluate the effects of low atmospheric pressure on leaf photosynthesis, we compared the photosynthesis of identical leaves of Fagus crenata at lowland (0 m a.s.l.) and at highland (2360 m a.s.l.). At the high altitude, the atmospheric pressure and partial pressure of CO2 at intercellular air spaces in the leaf (Ci360) decreased to 77% and 78% of those at the low altitude, respectively. On the other hand, the efficiency of photosynthetic CO2-utilization was apparently higher at the high altitude because of a mitigation of the O2-inhibition of ribulose-1,5-bisphosphate carboxylase/oxygenase (Rubisco) under low ambient partial pressure of O2. This stimulation of photosynthesis partly compensated a photosynthetic depression due to the low Ci360, and the net assimilation rate (An360) at the high altitude retained 94% of the value at the low altitude. A theoretical model indicated that the stimulation of photosynthesis at high altitudes depend on internal conductance (gi) and/or on Rubisco content. The model demonstrated that low atmospheric pressure at high altitudes caused severe restrictions of photosynthesis when leaves had a small gi and/or a large amount of Rubisco, whichever are repeatedly reported in alpine plants. 相似文献
11.
合理开发利用四川盆地地下卤水资源,对卤水体系开展多温相平衡与相图的研究具有重要意义。本文通过等温溶解平衡法对在288 K时五元体系NaCl+KCl+MgCl2+SrCl2+H2O(NaCl饱和)进行了相平衡实验研究,运用化学分析法以及X-ray粉晶衍射法分别确定了在288 K温度条件下该体系的平衡液相和平衡固相组成。通过固液相平衡实验数据,绘制了该五元体系以NaCl为饱和区域的干盐相图、水含量图以及氯化钠含量变化图。研究结果表明在288 K且NaCl饱和条件下,该五元体系干盐相图含有2个五元共饱和点、5条等温溶解度曲线和4个固相结晶区(KCl、MgCl2·6H2O、KCl·MgCl2·6H2O和SrCl2·6H2O)。固相结晶区KCl在该干盐相图中面积最大,其次是SrCl2·6H2O,而MgCl2·6H2O的结晶区面积最小,说明KCl在饱和溶液中的溶解度较小,易析出而得到分离,而MgCl2的溶解度最大,难以从饱和溶液中结晶析出,且MgCl2·6H2O对KCl和SrCl2·6H2O有强烈盐析作用。通过对本体系热力学相平衡实验研究和多温相平衡的对比讨论,揭示了钾锶镁等含氯化物卤水体系在多温相平衡与相图条件下的结晶析盐规律,为液态矿产资源开发利用提供理论指导。 相似文献
12.
13.
Gideon O. Okunlol Olusanya A. Olatunji Akinjide M. Afolabi Kolade K. Gbadegesin 《寒旱区科学》2015,7(2):137-145
This investigation was carried out to better understand the effects of nitrogen stress on the growth and yield of tomato(Solanum lycopersicon L.). Seeds of S. lycopersicon(Ife No. 1 variety) were collected from the Osun–State Ministry of Agriculture, Oshogbo, Nigeria and planted in analyzed top soil. The plants were grown for a period of five weeks within which they were supplied with water and kept under optimum environmental conditions that enhanced normal growth. After this period, the plants were subjected to different levels of nitrogen stress which include: plants supplied with distilled water only(n), plants supplied with complete nutrient solution(N), plants supplied with nutrient solution in which nitrogen concentration sources was increased by a factor of 5(N5), and plants supplied with nutrient solution in which nitrogen concentration sources was increased by a factor of 10(N10). Analysis of Variance(ANOVA) results shows that there is no significant effect of stress on the growth and morphological parameters of tomato plants. However, there was a significant effect of nitrogen stress on the yield parameters. Nitrogen stress also caused an increase in the number and size of fruits produced in plants subjected with high nitrogen concentration. 相似文献
14.
Michael S. Peek Andrew J. McElrone Irwin N. Forseth 《Journal of Arid Environments》2004,58(4):439-449
Over the course of a day, aridland plants experience a range of incident photosynthetic photon flux (PPF) spanning three orders of magnitude. Rapid photosynthetic responses to changes in PPF have large effects on individual plant carbon gain and water use patterns, hence are important to plant distribution and success. We investigated the response over time of photosynthesis (A), stomatal conductance (g), and inter-cellular CO2 concentration (Ci) to step changes in PPF in a long-lived aridland perennial that typically occurs in two contrasting microhabitats, shade under shrubs of other species and unshaded inter-shrub spaces. An initial rapid response in A and Ci for plants in both microhabitats occurred after abrupt changes in PPF. This was followed by slower changes in these parameters during the rest of the light or dark period. Stomatal conductance responded more gradually to step changes in PPF. The initial increase in A after a dark cycle was significantly greater for plants under shrubs than for plants in inter-shrub spaces, but other changes in A, g and Ci did not differ. We attribute the similar responses in plants from different microhabitats to natural variations in solar radiation and limited selection for differentiation due to population gene pools dominated by plants in the open. Our results support the hypothesis that variable light regimes select for photosynthetic gas exchange processes that closely track changes in incident PPF. Our data also support the hypothesis that gas exchange responses to variable light regimes in aridland plants minimize trade-offs between carbon gain and water loss. 相似文献
15.
Plant functional types and climate along a precipitation gradient in temperate grasslands, north-east China and south-east Mongolia 总被引:1,自引:0,他引:1
Jian Ni 《Journal of Arid Environments》2003,53(4):501-516
Using data from three field surveys along a precipitation gradient of temperate grasslands in north-east China (the Northeast China Transect, NECT) and south-east Mongolia, the spatial distribution of six plant functional types (PFTs): C3 species, C4 species, grasses, shrubs, forbs and succulents and their relationships with climate were analysed. The spatial distribution of different PFTs varies in different regions and in different grassland types of the study area. The species richness in each PFT also has different relationships with climate (significantly or not). Generally, the number of C3 species, C4 species, grasses and forbs have positive relationships with precipitation and aridity. Shrubs have negative relationship with precipitation and aridity. Succulents were found to have no relationship with precipitation and aridity. Shrubs, grasses and forbs have stronger relationships with precipitation than C3 and C4 species. The relationships between C3 species, forbs and aridity are more significant than with precipitation. On a regional basis, the combined effect of precipitation and temperature, the aridity, is more significantly correlated with the distribution of C3 species and forbs, which are more dominant in the study area, than with C4 species, grasses and succulents. 相似文献
16.
四川盆地雷口坡组大量钻井资料揭示中三叠统雷口坡组主要成盐期分别为雷三2期和雷四2期。岩性组合特征、沉积环境研究表明,在川中的平昌—南充—遂宁一带发育雷三2期浓缩盐膏质蒸发泻湖微相,在川中-川西地区的南部—盐亭—成都—邛崃地区发育雷四2期盐膏湖盆微相。两期盐岩差异主要表现是,雷三2期时,盆地处于频繁的海进、海退过程中,沉积环境变化较快,成盐环境相对开放,盐盆往往多次蒸发浓缩、补给、淡化,海水表现出接近或者达到盐岩沉积浓度,其间往往夹杂石膏和云质团块沉积。雷四2期时,四川盆地处于持续的海退蒸发期,蒸发量远远大于补给量,海水以蒸发浓缩为主,海水表现为超过石盐沉积浓度,沉积石盐中夹杂卤石,局部地区钾含量极高。 相似文献
17.
Qing Sun Manman Xie Liming Shi Zhuyue Zhang Yuan Lin Wenyu Shang Kaijun Wang Wei Li Jiaqi Liu Guoqiang Chu 《Journal of Paleolimnology》2013,50(3):331-344
Annually laminated sediments in Lake Xiaolongwan, northeast China, contain a suite of n-alkanes (C17–C33) with a strong odd over even carbon number predominance. Biomarker n-alkane proxies (average chain length, Paq ratio, grass/tree ratio, carbon preference index and compound-specific δ13C values) were used to reconstruct climate changes that occurred over the last millennium. Compound-specific δ13C values show large differences between the distinctive chain length groups of n-alkanes that originate from algae, aquatic macrophytes and terrestrial plants. Long-chain n-alkanes (C27–C33) are predominantly derived from leaf wax lipids in the forest. Variations in long-chain n-alkane δ13C values may mainly record water-use efficiency, inasmuch as the contribution from C4 plants is negligible in the Lake Xiaolongwan catchment. Short- and middle-chain n-alkanes are mainly from algae and aquatic plants. They are strongly depleted in 13C. This feature may be linked to a methane-derived, negative δ13C pool and lake overturn, which regulates dinoflagellate blooms. Parallel fluctuations are observed in δ13C27–31 values, Paq, and the grass/tree ratio throughout the record. Variations in δ13C27–31 values and Paq are in agreement with historical documents on summer and winter climate conditions. They support earlier suggestions that δ13C values in the long-chain n-alkanes and Paq may be useful indicators of effective precipitation or drought stress in this forested area. The δ13C27–31 index and Paq show distinct decadal variations. Periods with high δ13C27–31 values and a low Paq index correspond with the warm phases of the Pacific Decadal Oscillation (PDO). Values are reversed during PDO cool phases. At the decadal timescale, summer monsoon rainfall in northeast China over the last millennium may have been regulated mainly by the PDO. 相似文献
18.
E. P. Hamerlynck T. E. Huxman R. S. Nowak S. Redar M. E. Loik D. N. Jordan S. F. Zitzer J. S. Coleman J. R. Seemann S. D. Smith 《Journal of Arid Environments》2000,44(4):425
Of all terrestrial ecosystems, the productivity of deserts has been suggested to be the most responsive to increasing atmospheric CO2. The extent to which this prediction holds will depend in part on plant responses to elevated CO2under the highly variable conditions characteristic of arid regions. The photosynthetic responses ofLarrea tridentata , an evergreen shrub, to a step-increase in atmospheric CO2(to 550 μmolmol−1) were examined in the field using Free-Air CO2Enrichment (FACE) under seasonally varying moisture conditions. Elevated CO2substantially increased net assimilation rate (Anet) in Larrea during both moist and dry periods of the potential growing season, while stomatal conductance (gs) did not differ between elevated and ambient CO2treatments. Seasonal and diurnal gas exchange dynamics in elevated CO2mirrored patterns in ambient CO2, indicating that elevated CO2did not extend photosynthetic activity longer into the dry season or during more stressful times of the day. Net assimilation vs. internal CO2(A/Ci) responses showed no evidence of photosynthetic down-regulation during the dry season. In contrast, after significant autumn rains, Amax(the CO2saturated rate of photosynthesis) and CE (carboxylation efficiency) were lower in Larrea under elevated CO2. In situ chlorophyll fluorescence estimation ofLarrea Photosystem II efficiency (Fv/Fm) responded more to water limitation than to elevated CO2. These findings suggest that predictions regarding desert plant responses to elevated CO2should account for seasonal patterns of photosynthetic regulatory responses, which may vary across species and plant functional types. 相似文献
19.
采用基于扩展UNIQUAC模型的AQSOL027软件针对水盐体系Li-Na-K-Mg-Cl-SO_4-H_2O的六个五元子体系进行相平衡理论计算,首次报道了多个五元子体系在多个温度条件下的相图,将计算相图与已有实验相图以及基于其它热力学模型的计算相图进行了比较。结果表明:AQSOL027在相图计算中具有较好的准确性和可靠性。AQSOL027是一款基于Excel、用于计算复杂多温水—盐体系Li-Na-K-Mg-Ca-H-Cl-(HSO_4/SO_4)-(CO_2/HCO_3/CO_3)-(H_3BO_3/B_4O_7/BO_2)-OH-H_2O的计算机软件,集成了扩展UNIQUAC模型和相平衡算法,该软件可结合SysCAD和Aspen过程模拟器,实现盐田工艺过程的计算机辅助设计。 相似文献
20.
干旱程度对C3植物红砂和C4植物珍珠光合生理参数的影响 总被引:2,自引:1,他引:1
C3和C4植物混生在草地生态系统中较多,而在荒漠生态系统少见。在中国荒漠地区,C3小灌木红砂和C4半灌木珍珠在特定生境下混生在一起,以独特方式适应高温强光和干旱的极端环境。通过在不同干旱程度下测定它们生长期叶片的光合气体交换参数,探讨它们在混生条件下对极端环境的生理响应特征。结果表明,红砂的净光合速率(Pn)、蒸腾速率(E)、气孔导度(Gs)均要高于珍珠;而珍珠的水分利用效率(WUE)则要高于红砂。这表明珍珠和红砂在水分匮乏的荒漠生境下采取了不同的生存策略。红砂通过维持较高净光合速率和较高蒸腾速率来生存;而珍珠则通过高水分利用效率生存。 相似文献