Biomass and diversity of epiphytic liverworts along environmental gradients in a cloud forest in Mexico

IF 1.2 3区 生物学 Q3 PLANT SCIENCES
José Francisco Juárez-López, Arturo Sánchez-González, Numa Pavón, Dorismilda Martínez-Cabrera
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引用次数: 0

Abstract

ABSTRACTIntroduction Bryophytes can reach levels of coverage sufficient to influence key ecological processes; for example, their water retention capacity can supply an appreciable amount of humidity to forest ecosystems. The variation in biomass and diversity of epiphytic liverwort species in a Mexican cloud forest (CF) in the state of Hidalgo was estimated along elevation and latitude gradients, as was the relationship between epiphytic liverwort structural attributes and environmental factors.Methods Liverwort species were sampled in three municipalities with CF in Hidalgo State, at elevations of 1345–2019 m. In each municipality, two 0.1 ha plots were located at the two extremes of the gradient. For each of 10 trees per plot, three 10 × 10 cm areas of bark were selected as microplots, and from each microplot, samples of liverwort were obtained to determine structural data for the liverworts.Key results Species diversity was highest at the upper elevation level (1985–2001 m), and lowest at the lower elevation level (1345–1375 m). The highest dry and saturated weight values (15.20 g and 83.30 g, respectively) were found at lower elevations, and the lowest (11.78 g and 60.04 g, respectively) at high elevations.Conclusion Species diversity was positively related to elevation gradient, and species biomass decreased gradually with elevation. Beta diversity values were not associated with geographical distance between sites. Local factors, such as light input, available area, phorophyte species, humidity and temperature, may have more influence on the growth of epiphytic liverworts than elevation or geographical distance.KEYWORDS: Bryophyteselevationliverwortsspecies diversitytemperate forests AcknowledgementsWe gratefully acknowledge the Consejo Nacional de Humanidades, Ciencias y Tecnologías (CONAHCYT) for the scholarship granted to the first author to carry out postgraduate studies. Dr. Robert Gradstein is thanked for his help in corroborating identifications of some specimens. We greatly appreciate the comments of three anonymous reviewers, who contributed to substantially improving the manuscript.Disclosure statementNo potential conflict of interest was reported by the authors.Additional informationNotes on contributorsJosé Francisco Juárez-LópezJosé Francisco Juárez-López is a Ph.D. student at the Autonomous University of the State of Hidalgo, Mexico. His research focuses on the taxonomy and ecology of bryophytes, particularly Marchantiophyta, in Mexico.Arturo Sánchez-GonzálezArturo Sánchez-González is a professor-researcher at the Biological Research Center of the Autonomous University of the State of Hidalgo, Mexico. His research work has focused on the taxonomy, ecology and conservation of bryophytes in different ecosystems of Mexico.Numa PavónNuma Pavón is a professor at the Biological Research Center of the Autonomous University of the State of Hidalgo, Mexico. His research focuses on the effects of global change on ecological processes.Dorismilda Martínez-CabreraDorismilda Martínez-Cabrera is a professor-researcher at Huejutla Technological Institute, Mexico. She is currently a curator of the herbarium and director of the biology laboratory. Her research work has focused on the anatomy and taxonomy of bryophytes and vascular plants.
墨西哥云雾森林中沿环境梯度的附生苔类生物量和多样性
苔藓植物的覆盖范围足以影响关键的生态过程;例如,它们的保水能力可以为森林生态系统提供相当数量的湿度。研究了墨西哥伊达尔戈州云雾林(CF)附生苔类生物量和物种多样性沿海拔和纬度梯度的变化,以及附生苔类结构属性与环境因子的关系。方法在伊达尔戈州3个有CF的城市,在海拔1345 ~ 2019m取样茅类。在每个城市,两个0.1公顷的地块位于梯度的两个极端。每样地10棵树,选取3块10 × 10 cm的树皮面积作为微样地,从每个微样地获取苔类样本,以确定苔类的结构数据。主要结果物种多样性以高海拔(1985 ~ 2001 m)最高,低海拔(1345 ~ 1375 m)最低,干重和饱和重分别以低海拔最高(15.20 g和83.30 g),高海拔最低(11.78 g和60.04 g)。结论物种多样性与海拔梯度呈正相关,物种生物量随海拔梯度逐渐降低。Beta多样性值与站点间的地理距离无关。光照、可利用面积、光合植物种类、湿度和温度等局部因素对附生苔类植物生长的影响可能比海拔或地理距离更大。关键词:苔藓植物;海拔;苔类植物;物种多样性;温带森林。我们感谢国家人类科学委员会Tecnologías (CONAHCYT)为第一作者提供的奖学金,以进行研究生学习。罗伯特·格拉德斯坦博士对一些标本的确证鉴定的帮助受到了感谢。我们非常感谢三位匿名审稿人的意见,他们对本文的改进做出了很大的贡献。披露声明作者未报告潜在的利益冲突。其他信息撰稿人说明joss Francisco Juárez-LópezJosé Francisco Juárez-López是墨西哥伊达尔戈州自治大学的博士生。他的研究重点是苔藓植物的分类学和生态学,特别是墨西哥的苔藓植物。Arturo Sánchez-GonzálezArturo Sánchez-González是墨西哥伊达尔戈州自治大学生物研究中心的教授兼研究员。他的研究工作主要集中在墨西哥不同生态系统中苔藓植物的分类、生态学和保护。Numa PavónNuma Pavón是墨西哥伊达尔戈州自治大学生物研究中心的教授。他的研究重点是全球变化对生态过程的影响。Dorismilda Martínez-CabreraDorismilda Martínez-Cabrera是墨西哥Huejutla技术研究所的教授兼研究员。她目前是植物标本馆馆长和生物实验室主任。她的研究工作主要集中在苔藓植物和维管植物的解剖和分类上。
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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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