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掌叶榕木质部栓塞与木质部液压势、气孔关闭和新梢形态的关系。

Relationship of Xylem Embolism to Xylem Pressure Potential, Stomatal Closure, and Shoot Morphology in the Palm Rhapis excelsa.

机构信息

Harvard Forest, Harvard University, Petersham, Massachusetts 01366.

出版信息

Plant Physiol. 1986 Jan;80(1):110-6. doi: 10.1104/pp.80.1.110.

DOI:10.1104/pp.80.1.110
PMID:16664563
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1075065/
Abstract

Xylem failure via gas embolism (cavitation) induced by water stress was investigated in the palm Rhapis excelsa (Thumb.) Henry. Xylem embolism in excised stems and petioles was detected using measurements of xylem flow resistance: a decrease in resistance after the removal of flow-impeding embolisms by a pressure treatment indicated their previous presence in the axis. Results supported the validity of the method because increased resistance in an axis corresponded with: (a) induction of embolism by dehydration, (b) increased numbers of cavitations as detected by acoustic means, (c) presence of bubbles in xylem vessels. The method was used to determine how Rhapis accommodates embolism; results suggested four ways. (a) Embolism was relatively rare because pressure potentials reach the embolism-inducing value of about -2.90 megapascals only during prolonged drought. (b) When embolism did occur in nature, it was confined to the relatively expendable leaf xylem; the stem xylem, which is critical for shoot survival, remained fully functional. (c) Even during prolonged drought, the extent of embolism is limited by complete stomatal closure, which occurred at the xylem pressure potential of -3.20 +/- 0.18 megapascals. (d) Embolism is potentially reversible during prolonged rains, since embolisms dissolved within 5 h at a pressure potential of 0.00 megapascals (atmospheric), and xylem sap can approach this pressure during rain.

摘要

通过对水胁迫引起的气体栓塞(空化)导致的木质部衰竭进行研究,发现手掌椰(Thumb.)Henry 中的棕榈树 Rhapis excelsa 存在这种现象。通过测量木质部流阻来检测离体茎和叶柄中的木质部栓塞:在通过压力处理去除阻碍流动的栓塞后,阻力下降表明它们先前存在于轴中。结果支持了该方法的有效性,因为轴中的阻力增加与以下几点相对应:(a)通过脱水诱导栓塞,(b)通过声学手段检测到的空化数量增加,(c)木质部血管中存在气泡。该方法用于确定 Rhapis 如何适应栓塞;结果表明有四种方式。(a)栓塞相对较少,因为压力势仅在长时间干旱期间达到约-2.90 兆帕斯卡的栓塞诱导值。(b)当栓塞确实在自然界中发生时,它仅限于相对易失的叶片木质部;对芽存活至关重要的茎木质部仍然完全功能正常。(c)即使在长时间干旱期间,栓塞的程度也受到完全关闭气孔的限制,气孔在木质部压力势为-3.20 +/- 0.18 兆帕斯卡时关闭。(d)栓塞在长时间降雨期间可能是可逆的,因为栓塞在压力势为 0.00 兆帕斯卡(大气压)下在 5 小时内溶解,并且木质部汁液在降雨期间可以接近此压力。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/0b8a/1075065/fedf12b39661/plntphys00596-0125-a.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/0b8a/1075065/fedf12b39661/plntphys00596-0125-a.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/0b8a/1075065/fedf12b39661/plntphys00596-0125-a.jpg

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本文引用的文献

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Plant Physiol. 1984 Aug;75(4):988-92. doi: 10.1104/pp.75.4.988.
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Ultrasonic Acoustic Emissions from the Sapwood of Thuja occidentalis Measured inside a Pressure Bomb.在压力弹体内测量的西洋杉边材的超声声发射。
Plant Physiol. 1984 Apr;74(4):1046-9. doi: 10.1104/pp.74.4.1046.
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Cavitation Events in Thuja occidentalis L.? : Utrasonic Acoustic Emissions from the Sapwood Can Be Measured.
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Hydrodynamic Study on the "Stop-and-Acceleration" Pattern of Refilling Flow at Perforation Plates by Using a Xylem-Inspired Channel.利用仿木质部通道对穿孔板处再填充流“停止-加速”模式的流体动力学研究
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