Diversity and distribution of epiphytic orchids in different types of old-growth tropical forests in Bawangling National Nature Reserve, Hainan Island, China

doi:10.3773/j.issn.1005-264x.2010.04.005

Abstract

Abstract:

Aims Epiphytic orchids are a major group of epiphytes and vital to maintaining biodiversity and ecosystem functioning in tropical forests. Our objective was to explore diversity and distribution of epiphytic orchids among six different types of old-growth tropical forests (tropical monsoon forest, SF; tropical lowland rain forest, LF; tropical coniferous forest, CF; tropical montane rain forest, MF; tropical mountain evergreen forest, ME; and tropical elfin forest, EF) in Bawangling National Nature Reserve, Hainan Island, China.

Methods We established twelve 0.05 hm² (10 m × 50 m) plots in each type of old-growth forest and recorded species, individuals and position of epiphytic orchids on each tree and liana with diameter at breast height (DBH) ≥ 5 cm in each plot.

Important findings We recorded a total of 9 634 epiphytic orchids belonging to 60 species and 26 genera in the total sample of 3.6 hm². Detrended Correspondence Analysis based on the presence-absence and abundance showed that the epiphytic orchids of the six types of forests were divided into five groups (epiphytic orchids in ME and EF were clustered into one group). There was high similarity between neighboring altitudinal forest types, with the highest value (88.9%) between the ME and EF. Species richness and abundance of epiphytic orchids in the high altitude forest types were greater than in the low altitude forest types, with highest value in the ME. Differences in abundance of epiphytic orchids between in the trunk and the crown were crown > trunk in the SF, LF, CF and MF, no difference in ME and trunk > crown in EF. The ratio of the epiphytic orchids phorophytes to the total investigated plants was higher in the high altitude forest types than in the low altitude forest types. Epiphytic orchid abundance and species richness were both significant positive correlated with phorophyte size (DBH) in each forest type.

Key words: distribution, diversity, epiphyte, Hainan Island, orchids, tropical forest

LIU Guang-Fu, ZANG Run-Guo, DING Yi, WANG Wen-Yi, LI Ru-Cai, CHEN Shao-Wei, ZHOU Zhao-Li. Diversity and distribution of epiphytic orchids in different types of old-growth tropical forests in Bawangling National Nature Reserve, Hainan Island, China[J]. Chin J Plant Ecol, 2010, 34(4): 396-408.

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URL: https://www.plant-ecology.com/EN/10.3773/j.issn.1005-264x.2010.04.005

https://www.plant-ecology.com/EN/Y2010/V34/I4/396

Figures/Tables 6

References 63

[1]	Annaselvam J, Parthasarathy N (2001). Diversity and distribution of the herbaceous vascular epiphytes in a tropical evergreen forest at Varagalaiar, Western Ghats, India. Biodiversity and Conservation, 10, 317-329.
[2]	Atwood JT (1986). The size of the Orchidaceae and the systematic distribution of epiphytic orchids. Selbyana, 9, 171-186.
[3]	Benavides AM, Duque AJ, Duivenvoorden JF, Vasco GA, Callejas R (2005). A first quantitative census of vascular epiphytes in rain forests of Colombian Amazonia. Biodiversity and Conservation, 14, 739-758.
[4]	Benzing DH (1998). Vulnerabilities of tropical forests to climate change: the significance of resident epiphytes. Climatic Change, 39, 519-540.
[5]	Benzing DH (1990). Vascular Epiphytes: General Biology and Related Biota. Cambridge University Press, Cambridge, UK. 31-42.
[6]	Brodmann J, Twele R, Francke W, Luo YB, Song XQ, Ayasse M (2009). Orchid mimics honey bee alarm pheromone in order to attract hornets for pollination. Current Biology, 19, 1368-1372. URL PMID
[7]	Burns KC, Dawson AJ (2005). Patterns in the diversity and distribution of epiphytes and vines in a New Zealand forest. Austral Ecology, 30, 883-891.
[8]	Cao T (曹同), Guo SL (郭水良) (2000). A study on bryophytes diversity in the main ecosystem in Changbai Mountain. Chinese Biodiverstiy (生物多样性), 8, 50-59. (in Chinese with English abstract)
[9]	Cardelús CL, Colwell RK, Watkins JE (2006). Vascular epiphyte distribution patterns: explaining the mid-elevation richness peak. Journal of Ecology, 94, 144-156.
[10]	Cheng J, Shi J, Shangguan FZ, Dafni A, Deng ZH, Luo YB (2009). The pollination of a self-incompatible, food-mimic orchid, Coelogyne fimbriata (Orchidaceae), by female Vespula wasps. Annals of Botany, 104, 565-571. URL PMID
[11]	Chinese Virtual Herbarium (中国数字植物标本馆) (2009). Flora Reipubilcae Popularis Sinicae (中国植物志), http://www.cvh.org.cn/zhiwuzhi/list.asp. Cited 10 Sept. 2009.
[12]	Dressler RL (1993). Phylogeny and Classification of the Orchid Family. Cambridge University Press, Cambridge, UK. 7-12.
[13]	Flores-Palacios A, Garćia-Franco JG (2006). The relationship between tree size and epiphyte species richness: testing four different hypotheses. Journal of Biogeography, 33, 323-330. DOI URL
[14]	Gentry AH, Dodson CH (1987). Diversity and biogeography of neotropical vascular epiphytes. Annals of the Missouri Botanical Garden, 74, 205-233.
[15]	Hill MO (1979). DECORANA―a FORTRAN Program for Detrended Correspondence Analysis and Reciprocal Averaging. PhD dissertation, Cornell University, New York. 52.
[16]	Hŏfstede R, Dickinson K, Mark A (2001). Distribution, abundance and biomass of epiphyte-lianoid communities in a New Zealand lowland Nothofagus-Podoearp temperate rain forest: tropical comparisons. Journd of Biogeography, 28, 1033-1049.
[17]	Hŏilscher D, Kŏhlera L, van Dijk A, Bruijnzeel L (2004). The importance of epiphytes to total rainfall interception by a tropical montane rain forest in Costa Rica. Journal of Hydrology, 292, 308-322.
[18]	Hsu CC, Horng FW, Kuo CM (2002). Epiphyte biomass and nutrient capital of a moist subtropical forest in north-eastern Taiwan. Journal of Tropical Ecology, 18, 659-670. DOI URL
[19]	Hsu R, Wolf JHD (2009). Diversity and phytogeography of vascular epiphytes in a tropical-subtropical transition island, Taiwan. Flora, 204, 612-627.
[20]	Huang QL (黄清麟), Chen YF (陈永富), Yang XS (杨秀森) (2002). Study on the characters of tree stratum of Pinus latteri forest in Bawangling forest area of Hainan Province. Forest Research (林业科学研究), 15, 741-745. (in Chinese with English abstract)
[21]	Jiang YX (蒋有绪), Wang BS (王伯荪), Zang RG (臧润国), Jin JH (金建华), Liao WB (廖文波) (2002). The Biodiversity and Its Formation Mechanism of the Tropical Forest in Hainan Island (海南岛热带林生物多样性及其形成机制). Science Press, Beijing. 219-324. (in Chinese)
[22]	Johansson D (1974). Ecology of vascular epiphytes in West African rain forest. Acta Phytogeographica Suecica, 59, 1-123.
[23]	Kelly DL, O’Donovan G, Feehan J, Murphy S, Drangeid SO, Marcano-Berti L (2004). The epiphyte communities of a montane rain forest in the Andes of Venezuela: patterns in the distribution of the flora. Journal of Tropical Forest, 20, 643-666.
[24]	Kreft H, Köster N, Küper W, Nieder J, Barthlott W (2004). Diversity and biogeography of vascular epiphytes in Western Amazonia, Yasuní, Ecuador. Journal of Biogeography, 31, 1463-1476.
[25]	Küper W, Kreft H, Nieder J, Köster N, Barthlott W (2004). Large-scale diversity patterns of vascular epiphytes in Neotropical montane rain forests. Journal of Biogeography, 31, 1477-1487.
[26]	Li H (李恒), Bartholomew B (1999). The diversity of Orchidaceae in Gaoligong Mountains, Yunnan. Acta Botanica Yunnanica (云南植物研究), 21, 65-78. (in Chinese with English abstract)
[27]	Li L (李琳), Ye DP (叶德平), Xing FW (邢福武) (2009). Chrysoglossum Bl., a newly recorded genus of Orchidaceae from Hainan Province. Guihaia (广西植物), 29, 48-50. (in Chinese with English abstract)
[28]	Li P (李鹏), Tang SY (唐思远), Dong L (董立), Luo YB (罗毅波), Kou Y (寇勇), Yang XQ (杨小琴), Perner H (2005). Species diversity and flowering phenology of Orchidaceae in Huanglong valley, Sichuan. Biodiversity Science (生物多样性), 13, 255-261. (in Chinese with English abstract)
[29]	Li S (李苏), Liu WY (刘文耀), Wang LS (王立松), Yang GP (杨国平), Li DW (李达文) (2007). Species diversity and distribution of epiphytic lichens in the primary and second forests in Ailao Mountain, Yunnan. Biodiversity Science (生物多样性), 15, 445-455. (in Chinese with English abstract)
[30]	Liu K, Liu Z, Huang L, Li L, Chen L, Tang G (2006). Pollination: self-fertilization strategy in an orchid. Nature, 441, 945-946. DOI URL PMID
[31]	Liu WD (刘万德), Zang RG (臧润国), Ding Y (丁易) (2009). Community features of two types of typical tropical monsoon forests in Bawangling Nature Reserve, Hainan Island. Acta Ecologica Sinica (生态学报), 29, 3465-3476. (in Chinese with English abstract)
[32]	Liu WY (刘文耀) (2000). The role of epiphytic material in nutrient cycling of forest ecosystem. Chinese Journal of Ecology (生态学杂志), 19(2), 30-35. (in Chinese with English abstract)
[33]	Liu WY (刘文耀), Ma WZ (马文章), Yang LP (杨礼攀) (2006). Advances in ecological studies on epiphytes in forest canopies. Journal of Plant Ecology (Chinese Version) (植物生态学报), 30, 522-533. (in Chinese with English abstract)
[34]	Lowman MD, Rinker HB (2004). Forest Canopies 2nd edn. Elsevier Academic Press, California. 30, 76, 270-296.
[35]	Ma WZ (马文章), Liu WY (刘文耀), Yang LP (杨礼攀), Yang GP (杨国平) (2008). Edge effects on epiphytes in montane moist evergreen broad-leaved forest. Biodiversity Science (生物多样性), 16, 245-254. (in Chinese with English abstract)
[36]	Perry GR (1978). A method of access into the crowns of emergent and canopy trees. Biotropica, 10, 155-157. DOI URL
[37]	Richards PW (1996). The Tropical Rain Forest―an Ecological Study. Cambidge University Press, Cambridge, UK. 135-150.
[38]	Sanford WW (1968). Distribution of epiphytic orchids in semideciduous tropical forest in southern Nigeria. Journal of Ecology, 56, 697-705.
[39]	Schaijes M, Malaisse F (2001). Diversity of Upper Katanga epiphytes (mainly orchids) and distribution in different vegetation units. Systematics and Geography of Plants, 71, 575-584.
[40]	Schmidt G, Zotz G (2002). Inherently slow growth in two Caribbean epiphytic species: a demographic approach. Journal of Vegetation Science, 13, 527-534.
[41]	Shangguan FZ (上官法智), Cheng J (程瑾), Xiong YX (熊源新), Luo YB (罗毅波) (2008). Deceptive pollination of an autumn flowering orchid Eria coronaria (Orchidaceae). Biodiversity Science (生物多样性), 16, 477-483. (in Chinese with English abstract)
[42]	Shi J, Cheng J, Shangguan FZ, Luo YB, Deng ZH (2008). Study of pollination of Paphiopedilum dianthum in China. Orchideen Journal, 3, 100-105.
[43]	Song XQ, Meng QW, Luo YB (2009). New records of orchids from Hainnan, China (II). Acta Botanica Yunnanica, 31, 32-34.
[44]	ter Steege H, Cornelissen JHC (1989). Distribution and ecology of vascular epiphytes in lowland rain forest of Guyana. Biotropica, 21, 331-339.
[45]	Théry M (2001). Forest light and its influence on habitat selection. Plant Ecology, 153, 251-261.
[46]	Tian HZ (田怀珍), Xing FW (邢福武) (2008). Elevational diversity patterns of orchids in Nanling National Nature Reserve, northern Guangdong Province. Biodiversity Science (生物多样性), 16, 75-82. (in Chinese with English abstract)
[47]	van Pelt R (1995). Understory Tree Response to Canopy Gaps in Old-Growth Douglas-fir Forests of the Pacific Northwest. PhD dissertation, University of Washington, Seattle. 10-30.
[48]	Wang BS (王伯荪) (1987). Approach to the horizontal zonation of monsoon forests. Acta Phytoecologica et Geobotanica Sinica (植物生态学与地植物学学报), 11, 154-157. (in Chinese with English abstract)
[49]	Wang Q (汪庆), He SA (贺善安), Wu PC (吴鹏程) (1999). The role of bryophytes in biodiversity. Chinese Biodiversity (生物多样性), 7, 332-339. (in Chinese with English abstract)
[50]	Well TCE, Willems JH (1991). Population Ecology of Terrestrial Orchids. SPB Academic Press, Hague. 1-15.
[51]	Whittaker RH (1972). Evolution of measurement of species diversity. Taxon, 21, 213-251.
[52]	Winkler M, Hietz P (2001). Population structure of three epiphytic orchids ( Lycaste aromatica, Jacquiniella leucomelana and J. teretifolia) in a Mexican humid montane forest. Selbyana, 22, 27-33.
[53]	Wolf J, Gradstein S, Nadkarni N (2009). A protocol for sampling vascular epiphyte richness and abundance. Journal of Tropical Ecology, 25, 107-121.
[54]	Wolf JHD, Flamenco-S A (2003). Patterns in species richness and distribution of vascular epiphytes in Chiapas, Mexico. Journal of Biogeography, 30, 1689-1707.
[55]	Xu HQ (徐海清), Liu WY (刘文耀) (2005). Species diversity and distribution of epiphytes in the montane moist evergreen broad-leaved forest in Ailao Mountain, Yunnan. Biodiversity Science (生物多样性), 13, 137-147. (in Chinese with English abstract)
[56]	Yu SX (余世孝), Zang RG (臧润国), Jiang YX (蒋有绪) (2001). Spatial analysis species diversity in the tropical vegetations along the vertical belt at Bawangling Nature Reserve, Hainan Island. Acta Ecologica Sinica (生态学报), 21, 1438-1443. (in Chinese with English abstract)
[57]	Yu WG (余文刚), Luo YB (罗毅波), Jin ZQ (金志强) (2006). Study on species diversity and priority area of wild orchids in Hainan Island. Journal of Plant Ecology (Chinese Version) (植物生态学报), 30, 911-918. (in Chinese with English abstract)
[58]	Zang RG (臧润国), An SQ (安树青), Tao JP (陶建平), Jiang YX (蒋有绪), Wang BS (王伯荪) (2004). Mechanism of Biodiversity Maintenance of the Tropical Forest in Hainan Island (海南岛热带林生物多样性维持机制). Science Press, Beijing. 15-41. (in Chinese)
[59]	Zapfack L, Nkongmeneck A, Villiers J, Lowman M (1996). The importance of pteridophytes in the epiphytic flora of some phorophytes of the Cameroonian semi -deciduous rain forest. Selbyana, 17, 76-81.
[60]	Zotz G (1998). Demography of the epiphyte orchid, Dimerandra emarginata. Journal of Tropical Ecology, 14, 725-741. DOI URL
[61]	Zotz G (2007). The population structure of the vascular epiphytes in a lowland forest in Panama correlates with species abundance. Journal of Tropical Ecology, 23, 337-342. DOI URL
[62]	Zotz G, Schultz S (2008). The vascular epiphytes of a lowland forest in Panama―species composition and spatial structure. Plant Ecology, 195, 131-141. DOI URL
[63]	Zotz G, Vollrath B (2003). The epiphyte vegetation of the palm Socratea exorrhiza―correlations with tree size, tree age and bryophyte cover. Journal of Tropical Ecology, 19, 81-90. DOI URL

	森林类型 Forest type
	热带季雨林 SF	低地雨林 LF	热带针叶林 CF	山地雨林 MF	山地常绿林 ME	山顶矮林 EF
热带季雨林 SF		7	7	5	1	1
低地雨林 LF	46.7%		9	11	6	5
热带针叶林 CF	45.2%	58.1%		10	8	7
山地雨林 MF	23.3%	51.2%	45.5%		17	16
山地常绿林 ME	4.1%	24.5%	32.0%	54.8%		28
山地矮林 EF	2.3%	22.7%	31.1%	56.1%	88.9%

	森林类型 Forest type
	热带季雨林 SF	低地雨林 LF	热带针叶林 CF	山地雨林 MF	山地常绿林 ME	山顶矮林 EF
热带季雨林 SF		7	7	5	1	1
低地雨林 LF	46.7%		9	11	6	5
热带针叶林 CF	45.2%	58.1%		10	8	7
山地雨林 MF	23.3%	51.2%	45.5%		17	16
山地常绿林 ME	4.1%	24.5%	32.0%	54.8%		28
山地矮林 EF	2.3%	22.7%	31.1%	56.1%	88.9%

物种 Species	森林类型 Forest type	株数 No. of individuals	附生类型 Epiphyte type
多花脆兰 Acampe rigida	SF	1	FE
禾叶兰 Agrostophyllum callosum	ME、EF	37	FE
窄唇蜘蛛兰 Arachnis labrosa	LF、MF、LF	24	OB
赤唇石豆兰 Bulbophyllum affine	MF	1	FE
芳香石豆兰 Bulbophyllum ambrosia	ME、EF、MF	716	OB
戟唇石豆兰 Bulbophyllum hastatum	LF	1	FE
广东石豆兰 Bulbophyllum kwangtungense	ME、EF	381	FE
伏生石豆兰 Bulbophyllum reptans	ME	13	FE
藓叶卷瓣兰 Bulbophyllum retusiusculum	ME、EF	104	FE
石豆兰属一种 Bulbophyllum sp.	CF、MF、ME	70	FE
牛角兰 Ceratostylis hainanensis	ME、MF、EF	383	FE
管叶牛角兰 Ceratostylis subulata	MF、ME、EF	57	FE
隔距兰属一种 Cleisostoma sp.	LF	4	FE
美花隔距兰 Cleisostoma birmanicum	MF、 ME、EF	75	FE
金塔隔距兰 Cleisostoma filiforme	CF	1	OB
大序隔距兰 Cleisostoma paniculatum	LF、MF、ME、EF	143	FE
尖喙隔距兰 Cleisostoma rostratum	MF	6	FE
红花隔距兰 Cleisostoma williamosonii	SF、LF、CF、MF	23	FE
流苏贝母兰 Coelogyne fimbriata	ME、EF	1 829	FE
硬叶兰 Cymbidium bicolor	SF	3	FE
冬凤兰 Cymbidium dayanum	SF、LF、CF、MF、ME、EF	23	FE
象牙白 Cymbidium eburneum	ME、EF	7	FE
多花兰 Cymbidium floribundum	MF、ME、EF	13	FE
剑叶石斛 Dendrobium acinaciforme	SF、LF、CF、MF	187	FE
钩状石斛 Dendrobium aduncum	MF	16	OB
昌江石斛 Dendrobium changjiangense	LF、MF、CF	137	FE
密花石斛 Dendrobium densiflorum	LF、CF、MF、ME、EF	36	FE
海南石斛 Dendrobium hainanense	LF、CF、MF、ME	279	OB
聚石斛 Dendrobium lindleyi	LF	18	FE
石斛 Dendrobium nobile	LF 、MF、ME、 EF、	19	FE
华石斛 Dendrobium sinense	CF 、ME、EF	527	OB
梳唇石斛 Dendrobium strongylanthum	MF	1	OB
黑毛石斛 Dendrobium willianmsonii	CF、MF、ME、EF	46	OB
厚唇兰 Epigeneium clemensiae	ME、EF	96	OB
足茎毛兰 Eria coronaria	ME、MF、EF	230	FE
长苞毛兰 Eria obvia	LF、CF、MF、ME、EF	548	FE
指叶毛兰 Eria pannea	CF、MF、ME、EF	579	OB
五脊毛兰 Eria quinquelamellosa	ME	9	FE
玫瑰毛兰 Eria rosea	CF	37	FE
石豆毛兰 Eria thao	ME、EF	449	FE
狭叶金石斛 Flickingeria angustifolia	ME、EF	16	OB
海南盆距兰 Gastrochilus hainanensis	SF	112	OB
大尖囊兰 Kingidium deliciosum	SF	14	FE
镰翅羊耳蒜 Liparis bootanensis	ME、EF	669	FE
丛生羊耳蒜 Liparis cespitosa	ME、EF	375	FE
钗子股 Luisia morsei	SF、CF	99	OB
槌柱兰 Malleola dentifera	SF	14	OB
美丽云叶兰 Nephelaphyllum pulchrum	ME	3	AE
云叶兰 Nephelaphyllum tenuiflorum	EF	1	AE
红唇鸢尾兰 Oberonia rufilabris	MF、ME	13	OB
密苞鸢尾兰 Oberonia variabilis	ME	3	OB
石仙桃 Pholidota chinensis	MF、ME、EF	606	FE
细叶石仙桃 Pholidota cantonensis	ME、EF	95	FE
火焰兰 Renanthera coccinea	SF、CF	94	HE
海南钻喙兰 Rhynchostylis gigantea	SF	47	OB
大叶寄树兰 Robiquetia spatulata	SF	74	FE
匙唇兰 Schoenorchis gemmata	ME、ME、EF	133	OB
矮柱兰 Thelasis pygmaea	MF	1	FE
海台白点兰 Thrixspermum annamense	SF	19	OB
纯色万代兰 Vanda subconcolor	SF、LF、CF、MF	117	OB

物种 Species	森林类型 Forest type	株数 No. of individuals	附生类型 Epiphyte type
多花脆兰 Acampe rigida	SF	1	FE
禾叶兰 Agrostophyllum callosum	ME、EF	37	FE
窄唇蜘蛛兰 Arachnis labrosa	LF、MF、LF	24	OB
赤唇石豆兰 Bulbophyllum affine	MF	1	FE
芳香石豆兰 Bulbophyllum ambrosia	ME、EF、MF	716	OB
戟唇石豆兰 Bulbophyllum hastatum	LF	1	FE
广东石豆兰 Bulbophyllum kwangtungense	ME、EF	381	FE
伏生石豆兰 Bulbophyllum reptans	ME	13	FE
藓叶卷瓣兰 Bulbophyllum retusiusculum	ME、EF	104	FE
石豆兰属一种 Bulbophyllum sp.	CF、MF、ME	70	FE
牛角兰 Ceratostylis hainanensis	ME、MF、EF	383	FE
管叶牛角兰 Ceratostylis subulata	MF、ME、EF	57	FE
隔距兰属一种 Cleisostoma sp.	LF	4	FE
美花隔距兰 Cleisostoma birmanicum	MF、 ME、EF	75	FE
金塔隔距兰 Cleisostoma filiforme	CF	1	OB
大序隔距兰 Cleisostoma paniculatum	LF、MF、ME、EF	143	FE
尖喙隔距兰 Cleisostoma rostratum	MF	6	FE
红花隔距兰 Cleisostoma williamosonii	SF、LF、CF、MF	23	FE
流苏贝母兰 Coelogyne fimbriata	ME、EF	1 829	FE
硬叶兰 Cymbidium bicolor	SF	3	FE
冬凤兰 Cymbidium dayanum	SF、LF、CF、MF、ME、EF	23	FE
象牙白 Cymbidium eburneum	ME、EF	7	FE
多花兰 Cymbidium floribundum	MF、ME、EF	13	FE
剑叶石斛 Dendrobium acinaciforme	SF、LF、CF、MF	187	FE
钩状石斛 Dendrobium aduncum	MF	16	OB
昌江石斛 Dendrobium changjiangense	LF、MF、CF	137	FE
密花石斛 Dendrobium densiflorum	LF、CF、MF、ME、EF	36	FE
海南石斛 Dendrobium hainanense	LF、CF、MF、ME	279	OB
聚石斛 Dendrobium lindleyi	LF	18	FE
石斛 Dendrobium nobile	LF 、MF、ME、 EF、	19	FE
华石斛 Dendrobium sinense	CF 、ME、EF	527	OB
梳唇石斛 Dendrobium strongylanthum	MF	1	OB
黑毛石斛 Dendrobium willianmsonii	CF、MF、ME、EF	46	OB
厚唇兰 Epigeneium clemensiae	ME、EF	96	OB
足茎毛兰 Eria coronaria	ME、MF、EF	230	FE
长苞毛兰 Eria obvia	LF、CF、MF、ME、EF	548	FE
指叶毛兰 Eria pannea	CF、MF、ME、EF	579	OB
五脊毛兰 Eria quinquelamellosa	ME	9	FE
玫瑰毛兰 Eria rosea	CF	37	FE
石豆毛兰 Eria thao	ME、EF	449	FE
狭叶金石斛 Flickingeria angustifolia	ME、EF	16	OB
海南盆距兰 Gastrochilus hainanensis	SF	112	OB
大尖囊兰 Kingidium deliciosum	SF	14	FE
镰翅羊耳蒜 Liparis bootanensis	ME、EF	669	FE
丛生羊耳蒜 Liparis cespitosa	ME、EF	375	FE
钗子股 Luisia morsei	SF、CF	99	OB
槌柱兰 Malleola dentifera	SF	14	OB
美丽云叶兰 Nephelaphyllum pulchrum	ME	3	AE
云叶兰 Nephelaphyllum tenuiflorum	EF	1	AE
红唇鸢尾兰 Oberonia rufilabris	MF、ME	13	OB
密苞鸢尾兰 Oberonia variabilis	ME	3	OB
石仙桃 Pholidota chinensis	MF、ME、EF	606	FE
细叶石仙桃 Pholidota cantonensis	ME、EF	95	FE
火焰兰 Renanthera coccinea	SF、CF	94	HE
海南钻喙兰 Rhynchostylis gigantea	SF	47	OB
大叶寄树兰 Robiquetia spatulata	SF	74	FE
匙唇兰 Schoenorchis gemmata	ME、ME、EF	133	OB
矮柱兰 Thelasis pygmaea	MF	1	FE
海台白点兰 Thrixspermum annamense	SF	19	OB
纯色万代兰 Vanda subconcolor	SF、LF、CF、MF	117	OB