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Response of photosynthesis of Sphagnum species from contrasting microhabitats to tissue water content and repeated desiccation.来自不同微生境的泥炭藓物种光合作用对组织含水量和反复脱水的响应。
New Phytol. 1998 Dec;140(4):677-684. doi: 10.1046/j.1469-8137.1998.00311.x.
2
Photosynthetic responses of a moss, Tortula ruralis, ssp. ruralis, and the lichens Cladonia convoluta and C. furcata to water deficit and short periods of desiccation, and their ecophysiological significance: a baseline study at present-day CO concentration.一种苔藓(真藓原变种)以及地衣(卷枝石蕊和叉状石蕊)对水分亏缺和短期干燥的光合响应及其生理生态学意义:在当前二氧化碳浓度下的基线研究
New Phytol. 1996 Jun;133(2):353-361. doi: 10.1111/j.1469-8137.1996.tb01902.x.
3
Effects of continuous and repeated dehydration on carbon fixation by bryophytes from the maritime Antarctic.持续和反复脱水对南极海洋苔藓植物碳固定的影响。
Oecologia. 1997 Mar;110(1):25-31. doi: 10.1007/s004420050129.
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Influence of Protoplasmic Water Loss on the Control of Protein Synthesis in the Desiccation-Tolerant Moss Tortula ruralis: Ramifications for a Repair-Based Mechanism of Desiccation Tolerance.原浆水损失对耐旱藓类 Tortula ruralis 中蛋白质合成控制的影响:对基于修复的耐旱机制的影响。
Plant Physiol. 1991 Dec;97(4):1501-11. doi: 10.1104/pp.97.4.1501.
5
Sporophyte and gametophyte generations differ in their thermotolerance response in the moss Microbryum.在藓类植物小立碗藓中,孢子体世代和配子体世代在耐热性反应方面存在差异。
Ann Bot. 2006 Apr;97(4):505-11. doi: 10.1093/aob/mcl011. Epub 2006 Feb 14.
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Tr288, a rehydrin with a dehydrin twist.
Plant Mol Biol. 2001 Apr;45(6):713-22. doi: 10.1023/a:1010659120984.
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The cost of realized sexual reproduction: assessing patterns of reproductive allocation and sporophyte abortion in a desert moss.有性生殖的实际成本:评估沙漠苔藓的繁殖分配模式和孢子体流产情况。
Am J Bot. 2000 Nov;87(11):1599-608.
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Rapid recovery of photosystems on rewetting desiccation-tolerant mosses: chlorophyll fluorescence and inhibitor experiments.耐旱藓类植物复水后光系统的快速恢复:叶绿素荧光和抑制剂实验
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沙漠藓类无齿墙藓对干燥胁迫响应的世代差异

Generational differences in response to desiccation stress in the desert moss Tortula inermis.

作者信息

Stark Lloyd R, Oliver Melvin J, Mishler Brent D, McLetchie D Nicholas

机构信息

School of Life Sciences, University of Nevada, 4505 Maryland Parkway, Las Vegas, NV 89154-4004, USA.

出版信息

Ann Bot. 2007 Jan;99(1):53-60. doi: 10.1093/aob/mcl238. Epub 2006 Nov 10.

DOI:10.1093/aob/mcl238
PMID:17098752
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2802979/
Abstract

BACKGROUND AND AIMS

Active growth in post-embryonic sporophytes of desert mosses is restricted to the cooler, wetter months. However, most desert mosses have perennial gametophytes. It is hypothesized that these life history patterns are due, in part, to a reduced desiccation tolerance for sporophytes relative to gametophytes.

METHODS

Gametophytes with attached post-embryonic sporophytes of Tortula inermis (early seta elongation phenophase) were exposed to two levels of desiccation stress, one rapid-dry cycle and two rapid-dry cycles, then moistened and allowed to recover, resume development, and/or regenerate for 35 d in a growth chamber.

KEY RESULTS

Gametophytes tolerated the desiccation treatments well, with 93 % survival through regenerated shoot buds and/or protonemata. At the high stress treatment, a significantly higher frequency of burned leaves and browned shoots occurred. Sporophytes were far more sensitive to desiccation stress, with only 23 % surviving after the low desiccation stress treatment, and 3 % surviving after the high desiccation stress treatment. While the timing of protonemal production and sporophytic phenophases was relatively unaffected by desiccation stress, shoots exposed to one rapid-dry cycle produced shoots more rapidly than shoots exposed to two rapid-dry cycles.

CONCLUSIONS

It is concluded that sporophytes of Tortula inermis are more sensitive to rapid drying than are maternal gametophytes, and that sporophyte abortion in response to desiccation results from either reduced desiccation tolerance of sporophytes relative to gametophytes, or from a termination of the sporophyte on the part of the gametophyte in response to stress.

摘要

背景与目的

沙漠苔藓胚后孢子体的活跃生长仅限于较凉爽、湿润的月份。然而,大多数沙漠苔藓具有多年生配子体。据推测,这些生活史模式部分归因于孢子体相对于配子体的脱水耐受性降低。

方法

将带有无齿墙藓胚后孢子体(蒴柄伸长早期物候期)的配子体暴露于两种脱水胁迫水平下,即一个快速干燥循环和两个快速干燥循环,然后进行湿润处理,并在生长室中使其恢复、继续发育和/或再生35天。

主要结果

配子体对脱水处理耐受性良好,通过再生的芽和/或原丝体的存活率为93%。在高胁迫处理下,叶片灼伤和茎干褐变的频率显著更高。孢子体对脱水胁迫更为敏感,在低脱水胁迫处理后仅有23%存活,在高脱水胁迫处理后仅有3%存活。虽然原丝体产生的时间和孢子体物候相对不受脱水胁迫影响,但经历一个快速干燥循环的茎干比经历两个快速干燥循环的茎干生长得更快。

结论

得出结论,无齿墙藓的孢子体比其母体配子体对快速干燥更敏感,并且脱水导致的孢子体败育是由于孢子体相对于配子体的脱水耐受性降低,或者是由于配子体在应激反应中终止了孢子体的发育。