Do moss sporophytes maintain water balance? New insights from sporophyte water relations and the wild maturation cycle in Funaria hygrometrica Hedw.

IF 1.2 3区 生物学 Q3 PLANT SCIENCES
J. Duckett, S. Pressel
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引用次数: 2

Abstract

ABSTRACT Introduction The water relations of Funaria hygrometrica Hedw. sporophytes have never been investigated, although unchanged morphology through periods of drought suggests that they may be homoiohydric. Knowledge of the sporophyte maturation cycle is also incomplete and based on glasshouse plants. Methods We followed sporophyte development in wild populations of Funaria, recording fresh weights of every phenophase. Rates of water loss under laboratory conditions from sporophytes of different ages were recorded, and the ontogeny of the intercellular spaces and the maturational deposition of extra wall materials and waxes were investigated by cryo-SEM. Key results The sporophyte maturation cycle in wild Funaria lasted from December until July (> 200 days), nearly three times that recorded in glasshouses. Fresh weights of green capsules increased until after sporogenesis. Mature brown capsules were highly dehydrated. Prevailing weather conditions or addition of water had no effect on weights. Low rates of water loss, comparable with those from vascular plant leaves, decreased throughout sporophyte maturation under laboratory conditions. These data indicate that Funaria sporophytes mirror homoiohydric vascular plants. Deposition of additional wall materials around the stomatal apertures prevents closure soon after their opening towards the end of post-meiosis capsule expansion. Conclusions With phenophases similar to those of perennial species, Funaria may not be as much a fugitive species as previously assumed. The very brief window in nascent stomata ontogeny when reversible aperture changes might be possible indicates that the likely principal role of Funaria stomata is facilitation of capsule dehydration and not active regulation of gaseous exchange.
苔藓孢子维持水分平衡吗?水生植物孢子体水分关系和野生成熟周期的新认识。
摘要简介:水杨属植物的亲缘关系。孢子体从未被研究过,尽管在干旱时期保持不变的形态表明它们可能是同源的。孢子体成熟周期的知识也是不完整的,并且是基于温室植物。方法观察野生Funaria种群孢子体发育情况,记录各表型的鲜重。记录了不同年龄孢子体在实验室条件下的失水率,并通过冷冻扫描电镜研究了细胞间隙的个体发育以及壁外物质和蜡的成熟沉积。关键结果野生Funaria的孢子体成熟周期从12月持续到7月(>200天),几乎是温室记录的三倍。绿色胶囊的新鲜重量增加,直到孢子发生之后。成熟的棕色胶囊高度脱水。盛行的天气条件或加水对重量没有影响。在实验室条件下,与维管植物叶片的水分损失率相当,在孢子体成熟过程中水分损失率较低。这些数据表明,Funaria孢子体反映了同源维管植物。气孔周围额外壁物质的沉积阻止了气孔在减数分裂后囊膜膨胀结束时打开后不久关闭。结论Funaria的表型与多年生物种相似,可能不像以前认为的那样是一个逃亡物种。在新生口腔个体发育中,当可逆的孔径变化可能发生时,这个非常短暂的窗口表明,Funaria气孔可能的主要作用是促进胶囊脱水,而不是积极调节气体交换。
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来源期刊
Journal of Bryology
Journal of Bryology 生物-植物科学
CiteScore
4.50
自引率
31.60%
发文量
20
审稿时长
3 months
期刊介绍: Journal of Bryology exists to promote the scientific study of bryophytes (mosses, peat-mosses, liverworts and hornworts) and to foster understanding of the wider aspects of bryology. Journal of Bryology is an international botanical periodical which publishes original research papers in cell biology, anatomy, development, genetics, physiology, chemistry, ecology, paleobotany, evolution, taxonomy, molecular systematics, applied biology, conservation, biomonitoring and biogeography of bryophytes, and also significant new check-lists and descriptive floras of poorly known regions and studies on the role of bryophytes in human affairs, and the lives of notable bryologists.
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