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加利福尼亚南部索诺兰沙漠中沙漠深根性植物腺牧豆树的夏季水分关系

Summer water relations of the desert phreatophyte Prosopis glandulosa in the Sonoran Desert of southern California.

作者信息

Nilsen Erik T, Rundel Philip W, Sharifi M Rasoul

机构信息

Department of Ecology and Evolutionary Biology, University of California, 92717, Irvine, CA, USA.

出版信息

Oecologia. 1981 Aug;50(2):271-276. doi: 10.1007/BF00348050.

DOI:10.1007/BF00348050
PMID:28311100
Abstract

Prosopis is a genus of phreatophytic trees inhabiting hot deserts and semiarid grasslands of the world. Although desert trees are exposed to unusual environmental temperature and water stress, few investigations have evaluated their water relations. This is particularly true for Prosopis species growing in areas where a large portion of their water use comes from ground water.Water relations components for Prosopis glandulosa were studied at Harper's Well, near the Salton Sea, California during the summer months of 1980. Maximum temperatures (49° C), irradiance (2,000 μE/m/sec), and vapor pressure deficit (5.3 kPa) were reached in July. During this time Prosopis glandulosa predawn xylem pressure potentials were below-3.0 MPa. Prosopis glandulosa at Harper's Well is able to maintain open stomata during high temperatures, high vapor pressure deficit and at low estimated turgor pressure. Leaf resistance measurements indicate that stomata are open primarily in the morning, but may reopen in the afternoon in trees with greater water resources. Osmotic potentials of juvenile shoots were higher (-1.0 to-2.5 MPa) than mature shoots (-3.5 MPa). Estimated turgor potential remained low (0.1-0.2 MPa) during the morning and early afternoon. Estimated turgor pressure increased from August to September as temperatures and vapor pressure deficit decreased. Leaf conductance was strongly associated with leaf vapor pressure deficit and estimated turgor potential but poorly associated with xylem pressure potential. Prosopis stomata seem to be uncoupled from tissue water potential until-4.8 MPa is reached.

摘要

牧豆树属是一类生长在世界炎热沙漠和半干旱草原的潜水植物。尽管沙漠树木面临着异常的环境温度和水分胁迫,但很少有研究评估它们的水分关系。对于那些大部分水分来自地下水的地区生长的牧豆树属物种来说尤其如此。1980年夏季,在加利福尼亚州索尔顿海附近的哈珀井对腺牧豆树的水分关系组成部分进行了研究。7月达到了最高温度(49℃)、辐照度(2000μE/m/秒)和水汽压差(5.3kPa)。在此期间,腺牧豆树黎明前木质部压力势低于-3.0MPa。哈珀井的腺牧豆树能够在高温、高水汽压差和低膨压下保持气孔开放。叶片阻力测量表明,气孔主要在早晨开放,但在水资源较多的树木中,气孔可能在下午重新开放。幼嫩枝条的渗透势(-1.0至-2.5MPa)高于成熟枝条(-3.5MPa)。在上午和下午早些时候,估计的膨压势仍然较低(0.1-0.2MPa)。随着温度和水汽压差的降低,估计的膨压从8月到9月增加。叶片导度与叶片水汽压差和估计的膨压势密切相关,但与木质部压力势相关性较差。牧豆树的气孔似乎在达到-4.8MPa之前与组织水势解耦。

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Oecologia. 1986 Apr;69(1):95-100. doi: 10.1007/BF00399043.
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Estimates of N-fixation from variation in the natural abundance of N in Sonoran desert ecosystems.根据索诺兰沙漠生态系统中氮自然丰度的变化对氮固定量的估计。
Oecologia. 1983 Feb;56(2-3):365-373. doi: 10.1007/BF00379714.
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