Forest in Karst Mountain Sinkhole of Southeastern China Provides Refugium for the Preservation of Bryophyte Diversity

IF 1.1 4区 生物学 Q3 PLANT SCIENCES
Xiaofang Li, Zhao-hui Zhang, Zhi-hui Wang, K. Shi
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引用次数: 0

Abstract

The negative landform of sinkholes provides belowground level refugia for a high diversity of forest species compared to the forests on the surface of surrounding karst plateaus in southeastern China. Bryophyte diversity in sinkhole forests is also likely to be high. In this study, bryophytes of an underground forest sinkhole (UFS), and two forests (Forest Karst Mountain 1; FKM1) and (Forest Karst Mountain 2; FKM2) on the surface of the karst plateau were compared to understand the role of the sinkhole forest in the conservation of bryophyte diversity and the relationships between bryophyte diversity, environmental factors, and soil nutrients. Significantly more bryophyte taxa were recorded from the sinkhole forest (71 taxa, 36 genera, 23 families) than those in the forest on the plateau surface, which was the closest to the sinkhole (FKM1; 29 bryophyte taxa, 16 genera, 12 families), and even fewer bryophytes were found in the forest more distant to the sinkhole (FKM2; 22 taxa, 17 genera, eight families). Twenty-four liverwort taxa were collected from the sinkhole forest, two from the closest surface forest (FKM1) and none from the furthest surface forest (FKM2). Ninety-three percent of the bryophytes in karst mountain sinkhole were not found on surface forest. The diversity index trend was as follows: UFS > FKM1 > FKM2, and the evenness index trend was in the opposite direction as follows: UFS < FKM1 < FKM2. The beta diversity showed that the Jaccard index among the three forests was 0–0.25, reflecting a huge difference between the sinkhole forest and the two surface forests. Canonical correspondence analysis showed that light was the most important factor affecting the distribution of bryophytes in the sinkhole forest, while temperature and humidity were key factors for the distribution of bryophytes in the two surface forests. Further, soil parameters, namely, soil organic carbon, total nitrogen, total phosphorus, total potassium, alkali-hydrolyzed nitrogen, and available phosphorus changed gradually from UFS to FKM1 and to FKM2. The sinkhole forest, located in a landform with the unique negative topography enclosed by cliffs, and with a complex microenvironment, provides a natural refuge for bryophyte species in areas where forests have been negatively impacted by karst rocky desertification.
中国东南岩溶山溶洞森林为苔藓植物多样性保护提供了避难所
与中国东南部喀斯特高原周围的森林相比,天坑的负地貌为森林物种的高度多样性提供了地下避难所。天坑森林中苔藓植物的多样性也可能很高。本研究对喀斯特高原地表的一个地下森林天坑(UFS)和两个森林(森林喀斯特山1;FKM1)和(森林喀斯特山2;FKM2)的苔藓植物进行了比较,以了解天坑林在苔藓植物多样性保护中的作用,以及苔藓多样性、环境因素和土壤养分之间的关系。天坑森林中记录的苔藓植物分类群(71个分类群,36属,23科)明显多于高原表面森林中的苔藓植物,高原表面森林是最靠近天坑的(FKM1;29个苔藓植物分类单元,16属,12科),而在离天坑更远的森林中发现的苔藓植物更少(FKM2;22个分类单元,17属,8科)。从天坑森林中收集了24个苔类分类群,其中两个来自最近的地表森林(FKM1),没有一个来自最远的地表森林。岩溶山天坑中有93%的苔藓植物未在地表森林中发现。多样性指数趋势为:UFS>FKM1>FKM2,均匀性指数趋势相反:UFS
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来源期刊
CiteScore
2.00
自引率
10.00%
发文量
18
审稿时长
1 months
期刊介绍: The journal has been published since 1923 and offers Open Access publication of original research papers, short communications, and reviews in all areas of plant science, including evolution, ecology, genetics, plant structure and development, physiology and biochemistry.
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