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101.
Arid ecosystems, which occupy about 35% of the Earth's terrestrial surface area, are believed to be among the most responsive to elevated [CO2]. Net ecosystem CO2 exchange (NEE) was measured in the eighth year of CO2 enrichment at the Nevada Desert Free‐Air CO2 Enrichment (FACE) Facility between the months of December 2003–December 2004. On most dates mean daily NEE (24 h) (μmol CO2 m?2 s?1) of ecosystems exposed to elevated atmospheric CO2 were similar to those maintained at current ambient CO2 levels. However, on sampling dates following rains, mean daily NEEs of ecosystems exposed to elevated [CO2] averaged 23 to 56% lower than mean daily NEEs of ecosystems maintained at ambient [CO2]. Mean daily NEE varied seasonally across both CO2 treatments, increasing from about 0.1 μmol CO2 m?2 s?1 in December to a maximum of 0.5–0.6 μmol CO2 m?2 s?1 in early spring. Maximum NEE in ecosystems exposed to elevated CO2 occurred 1 month earlier than it did in ecosystems exposed to ambient CO2, with declines in both treatments to lowest seasonal levels by early October (0.09±0.03 μmol CO2 m?2 s?1), but then increasing to near peak levels in late October (0.36±0.08 μmol CO2 m?2 s?1), November (0.28±0.03 μmol CO2 m?2 s?1), and December (0.54±0.06 μmol CO2 m?2 s?1). Seasonal patterns of mean daily NEE primarily resulted from larger seasonal fluctuations in rates of daytime net ecosystem CO2 uptake which were closely tied to plant community phenology and precipitation. Photosynthesis in the autotrophic crust community (lichens, mosses, and free‐living cyanobacteria) following rains were probably responsible for the high NEEs observed in January, February, and late October 2004 when vascular plant photosynthesis was low. Both CO2 treatments were net CO2 sinks in 2004, but exposure to elevated CO2 reduced CO2 sink strength by 30% (positive net ecosystem productivity=127±17 g C m?2 yr?1 ambient CO2 and 90±11 g C m?2 yr?1 elevated CO2, P=0.011). This level of net C uptake rivals or exceeds levels observed in some forested and grassland ecosystems. Thus, the decrease in C sequestration seen in our study under elevated CO2– along with the extensive coverage of arid and semi‐arid ecosystems globally – points to a significant drop in global C sequestration potential in the next several decades because of responses of heretofore overlooked dryland ecosystems. 相似文献
102.
Nutrient fluxes from water to land: seabirds affect plant nutrient status on Gulf of California islands 总被引:9,自引:0,他引:9
Energy and nutrient fluxes across habitat boundaries can exert profound direct and indirect effects on the dynamics of recipient
systems. Transport from land to water is common and well studied; here, we document a less recognized process, substantial
flows from water to land. On hyperarid, naturally nutrient poor islands in the Gulf of California, nutrient input via seabird
guano directly increases N and P concentrations up to 6-fold in soils; these nutrients enrich plants. Nutrients in a long-lived
cactus, a short-lived shrub, and annuals were 1.6- to 2.4-fold greater on bird versus nonbird islands. Because plant quality
affects consumer growth and reproduction, we suggest that nutrient enrichment via guano ramifies to affect the entire food
web on these islands.
Received: 6 April 1998 / Accepted: 6 October 1998 相似文献
103.
Biotic, abiotic and performance aspects of the Nevada Desert Free-Air CO2 Enrichment (FACE) Facility 总被引:3,自引:0,他引:3
DeaN. N. Jordan Stephen F. Zitzer † George R. Hendrey ‡ Keith F. Lewin ‡ JohN. Nagy ‡ Robert S. Nowak § Stanley D. Smith James S. Coleman¶ Jeffrey R. Seemann§ 《Global Change Biology》1999,5(6):659-668
Arid and semiarid climates comprise roughly 40% of the earth’s terrestrial surface. Deserts are predicted to be extremely responsive to global change because they are stressful environments where small absolute changes in water availability or use represent large proportional changes. Water and carbon dioxide fluxes are inherently coupled in plant growth. No documented global change has been more substantial or more rapid than the increase in atmospheric CO2. Free Air CO2 Enrichment (FACE) technology permits manipulation of CO2 in intact communities without altering factors such as light intensity or quality, humidity or wind. The Nevada Desert FACE Facility (NDFF) consists of three 491 m2 plots in the Mojave Desert receiving 550 μL L–1 CO2, and six ambient plots to assess both CO2 and fan effects. The shrub community was characterized as a Larrea–Ambrosia–Lycium species complex. Data are reported through 12 months of operation. 相似文献
104.
105.
106.
The wood anatomy of 7 species (Ammopiptanthus mongolicus, Amorpha fruticosa, Halimodendron halodendron, Hedysarum mongolicum. Hedysarum scoparium, Lespedeza bicolor and Robinia pseudoacacia)of Leguminosae, which grow in desert regions of Northern China, is described in details. A comparative study on the quantitative wood anatomical characters among the species is made. Except some anatomical characters in A. fruticosa were larger in vessel diameter, thin walled in vessels and libriform fibres, all the rest six species showed a general similarities:vessel frequency/sq, mm very numerous and percentage of multiple vessels high; vessel elements very short, perforations simple and in almost horizontal end walls, intervessel bordered pits alternate and vestured; libriform fibres very short, and usually with thickened walls, and with simple pits; average ray height very low, and with multiseriate as well as uniseriate. However, there are differences in other characters, e. g. vessel distribution, percentage of solitary vessels; spiral thickenings present or absent; amount of axial parenchyma and distribution; ray frequency and type; crystals present or absent, and crystal distribution, if present. According to these anatomical diversities, a key to the identification of the 7 species is given. In this article, the relation between the structure of wood and the environmental influences has been discussed. 相似文献
107.
Palynoflora studies on the Duantouliang section, located at 39º40'N, 103º55'E in Northwestern Tengger Desert, China showed that, based on the spore-pollen assemblages, the major vegetation and climatic environment between 42 000 to 23 000 a BP could be divided into the following different periods: Ⅰ. From 42 000 to 38 000 a BP, the spore-pollen assemblages displayed that the mixed conifer/deciduous broad-leaved forests developed on the mountain and its foothill regions where the bare Gobi-desert are at present; At that time, Populus and Salix forests and grassland surrounded the Paleaolake, the climate condition was much warmer and humid than today; Ⅱ. From 38 000 to 37 000 a BP, the climate was warm and moist, it was the most suitable period for the plant growth, the studied area was dominated by the temperate and warm-temperate mixed broad-leaf deciduous and needleleaf forest, there was meadow spreaded on the river sides and lake beaches; Ⅲ. From 31 000 to 30000 a BP, the needleleaf forests and cold-temperate Salix oritrepha shrubs were flourishing, and the climate at that time was relatively cold;Ⅳ. From 30000 to 28000 a BP, the temperatures began increasing, the high lake levels was formed during this time, and the vegetations were meadows and swamps; V. From 28 000 to 23 000 a BP, temperate Cupressaceae and Betula mixed conifer/deciduous forests grew on mountain and foothill region, grassland developed on plain areas, Salix was on lake and river sides. This indicates a warm and moist climate condition but it was drier than the earliest period. 相似文献
108.
荒漠生态系统环境的复杂性及其高度的空间异质性是土壤碳储量估算结果不确定性的重要因素。通过调查取样和室内分析, 研究了腾格里沙漠东南缘10种主要荒漠草地群落各土壤层(0-5、5-10、10-20、20-30、30-50、50-70和70-100 cm土层)的土壤有机碳(SOC)含量、垂直分布特征和影响因素, 以及0-5、0-20、0-50和0-100 cm土层剖面的土壤有机碳密度(SOCD)。结果显示, 灌木群落是SOC含量的重要影响因素, 各土层SOC含量在10种群落间均存在显著差异。从土壤表层到深层, SOC含量主要表现为由高至低和先升高后降低两种特征。SOC含量与黏粉粒含量、全氮(N)、全磷(P)和电导率呈显著的正相关关系, 与砂粒含量呈显著的负相关关系。各群落之间, 0-5、0-20、0-50和0-100 cm土层剖面的SOCD均存在显著差异, 其平均值分别为0.118、0.478、1.159和1.936 kg·m -2。这一结果低于全球和全国草地SOCD的平均值, 利用全国数据或该研究的平均值可能会高估或低估区域土壤有机碳储量, 因此利用不同群落的SOCD能增加荒漠地区土壤有机碳储量估算的确定性。 相似文献
109.
柽柳(Tamarix chinensis)沙包是塔克拉玛干沙漠特殊的生物地貌景观, 对维持区域生态环境的稳定具有极其重要的作用。该研究采用野外调查与室内分析相结合的方法, 选取且末、阿拉尔、策勒、塔中4个典型区域的柽柳沙包为研究对象, 对柽柳沙包0-500 cm土壤垂直剖面进行采样, 测定土壤pH值、枯落物含量、电导率及HCO3 -、Cl -、SO4 2-、Ca 2+、Mg 2+、K +、Na +含量, 分析柽柳沙包中土壤盐分的空间变化规律及其影响因素。结果表明: 1)从且末、阿拉尔、策勒到塔中, 土壤pH值总体呈升高趋势, 土壤电导率及Na +、Ca 2+、Mg 2+、SO4 2-含量总体呈降低趋势, K +、Cl -、HCO3 -含量没有明显的变化规律。2)盐分在4个样区的垂直分布主要表现为: 且末和策勒样区柽柳沙包的土壤盐分呈表层聚集现象; 阿拉尔和塔中样区柽柳沙包的土壤盐分呈深层聚集现象。随着土层深度的增加, 土壤pH值总体呈升高的趋势, 土壤枯落物含量总体呈降低趋势; 土壤电导率在且末和策勒样区总体呈降低趋势, 阿拉尔样区呈先降低后升高再降低的变化趋势, 而塔中样区呈先升高后降低再升高的变化趋势。3)根据相关性分析和主成分分析, 且末样区土壤枯落物含量、SO4 2-、Na +、K +为影响土壤盐分含量的主要因子, 且土壤盐分以硫酸盐为主; 阿拉尔样区影响土壤盐分组成的主要因子为Cl -、Na +; 策勒样区为Cl -、K +、Na +; 塔中样区为Cl -、Na +、Ca 2+、SO4 2-, 且土壤盐分均以氯化物为主。综合分析表明, 不同区域柽柳沙包中土壤盐分存在空间变异性, 柽柳沙包土壤盐分的变化与干旱沙漠地区强烈的蒸发作用、地表风蚀强度、地下水埋深、土壤中枯落物及柽柳的生物积盐效应等因素密切相关, 是影响不同区域土壤盐分分布的关键因子。 相似文献
110.
Persistence of historical population structure in an endangered species despite near‐complete biome conversion in California's San Joaquin Desert 下载免费PDF全文
Jonathan Q. Richmond Dustin A. Wood Michael F. Westphal Amy G. Vandergast Adam D. Leaché Lawrence R. Saslaw H. Scott Butterfield Robert N. Fisher 《Molecular ecology》2017,26(14):3618-3635
Genomic responses to habitat conversion can be rapid, providing wildlife managers with time‐limited opportunities to enact recovery efforts that use population connectivity information that reflects predisturbance landscapes. Despite near‐complete biome conversion, such opportunities may still exist for the endemic fauna and flora of California's San Joaquin Desert, but comprehensive genetic data sets are lacking for nearly all species in the region. To fill this knowledge gap, we studied the rangewide population structure of the endangered blunt‐nosed leopard lizard Gambelia sila, a San Joaquin Desert endemic, using restriction site‐associated DNA (RAD), microsatellite and mtDNA data to test whether admixture patterns and estimates of effective migration surfaces (EEMS) can identify land areas with high population connectivity prior to the conversion of native xeric habitats. Clustering and phylogenetic analyses indicate a recent shared history between numerous isolated populations and EEMS reveals latent signals of corridors and barriers to gene flow over areas now replaced by agriculture and urbanization. Conflicting histories between the mtDNA and nuclear genomes are consistent with hybridization with the sister species G. wislizenii, raising important questions about where legal protection should end at the southern range limit of G. sila. Comparative analysis of different data sets also adds to a growing list of advantages in using RAD loci for genetic studies of rare species. We demonstrate how the results of this work can serve as an evolutionary guidance tool for managing endemic, arid‐adapted taxa in one of the world's most compromised landscapes. 相似文献