Taxonomic diversity of fishes from two coral-reef waters of the South China Sea
Yuanjie Li A B C D , Jun Zhang A C D * , Zuozhi Chen A C D * , Xuejiao Dai A D , Pengli Xiong A D and Wenming Yu AA
B
C
D
Abstract
Conservation of coral-reef fishes requires an understanding of their spatial and temporal responses to climate change and anthropogenic disturbance, which also requires an understanding of patterns in their taxonomic diversity.
To describe the species composition, taxonomic diversity and G-F diversity-measurement index of Qilianyu Island and Meiji Reef, South China Sea, coral-reef fish assemblages.
Coral reef-dwelling fish were sampled in 2018 and 2019 at Meiji Reef and Qilianyu Island by using various fishing gears, identified to the lowest taxonomic category, and their taxonomic relatedness was compared at levels of class, order, family, genus and species.
The reef-dwelling fish fauna of this region comprises 123 species in 5 orders (dominated by Perciformes, at 78%), 22 families and 46 genera. The average taxonomic distinctness (Δ+) of Qilianyu Island fish assemblages is 55.52, and variation in taxonomic distinctness (Λ+) is 138.18; for Meiji Reef, values for Δ+ and Λ+ are 53.02 and 135.33 respectively.
High species diversity and low taxonomic diversity are important features of coral-reef fish assemblages in the South China Sea.
The high species diversity of reef fish in the South China Sea, along with a well-distributed assemblage of families and genera, is crucial for preserving the region’s fish biodiversity. Consequently, timely prioritisation of reef fish conservation is essential.
Keywords: anthropogenic disturbance, biodiversity, climate change, coral-reef fish, G-F diversity index, Meiji Reef, Qilianyu Island, species composition.
References
Adam TC, Schmitt RJ, Holbrook SJ, Brooks AJ, Edmunds PJ, Carpenter RC, Bernardi G, Clifton J (2011) Herbivory, connectivity, and ecosystem resilience: response of a coral reef to a large-scale perturbation. PLoS ONE 6, e23717.
| Crossref | Google Scholar | PubMed |
Albright R, Caldeira L, Hosfelt J, Kwiatkowski L, Maclaren JK, Mason BM, Nebuchina Y, Ninokawa A, Pongratz J, Ricke KL, Rivlin T, Schneider K, Sesboüé M, Shamberger K, Silverman J, Wolfe K, Zhu K, Caldeira K (2016) Reversal of ocean acidification enhances net coral reef calcification. Nature 531, 362-365.
| Crossref | Google Scholar |
Alvarez-Filip L, Gill JA, Dulvy NK (2011) Complex reef architecture supports more small-bodied fishes and longer food chains on Caribbean reefs. Ecosphere 2, art118.
| Crossref | Google Scholar |
Arai T (2015) Diversity and conservation of coral reef fishes in the Malaysian South China Sea. Reviews in Fish Biology and Fisheries 25, 85-101.
| Crossref | Google Scholar |
Araújo FG, Rodrigues FL, Teixeira-Neves TP, Vieira JP, Azevedo MCC, Penha Guedes AP, Garcia AM, Pessanha ALM (2018) Regional patterns in species richness and taxonomic diversity of the nearshore fish community in the Brazilian coast. Estuarine, Coastal and Shelf Science 208, 9-22.
| Crossref | Google Scholar |
Azevedo MCC, Gomes-Goncalves RS, Mattos TM, Uehara W, Guedes GHS, Araújo FG (2017) Taxonomic and functional distinctness of the fish assemblages in three coastal environments (bays, coastal lagoons and oceanic beaches) in southeastern Brazil. Marine Environmental Research 129, 180-188.
| Crossref | Google Scholar |
Bellwood DR, Hughes TP (2001) Regional-scale assembly rules and biodiversity of coral reefs. Science 292, 1532-1535.
| Crossref | Google Scholar | PubMed |
Bellwood DR, Hughes TP, Connolly SR, Tanner J (2005) Environmental and geometric constraints on Indo-Pacific coral reef biodiversity. Ecology Letters 8, 643-651.
| Crossref | Google Scholar |
Boström-Einarsson L, Bonin MC, Munday PL, Jones GP (2018) Loss of live coral compromises predator-avoidance behaviour in coral reef damselfish. Scientific Reports 8, 7795.
| Crossref | Google Scholar |
Brandl SJ, Rasher DB, Côté IM, Casey JM, Darling ES, Lefcheck JS, Duffy JE (2019) Coral reef ecosystem functioning: eight core processes and the role of biodiversity. Frontiers in Ecology and the Environment 17, 445-454.
| Crossref | Google Scholar |
Chen G, Li Y, Chen X (2007) 南海主要珊瑚礁水域的鱼类物种多样性研究 [Species diversity of fishes in the coral reefs of South China Sea.]. 生物多样性 [Biodiversity Science] 15, 373-381 [In Chinese].
| Crossref | Google Scholar |
China V, Zvuloni A, Roll U, Belmaker J (2021) Reduced human activity in shallow reefs during the COVID-19 pandemic increases fish evenness. Biological Conservation 257, 109103. doi:10.1016/j.biocon.2021.109103. PMID: 36530739
Clarke KR, Warwick RM (1998) A taxonomic distinctness index and its statistical properties. Journal of Applied Ecology 35, 523-531.
| Crossref | Google Scholar |
Clarke KR, Warwick RM (1999) The taxonomic distinctness measure of biodiversity: weighting of step lengths between hierarchical levels. Marine Ecology Progress Series 184, 21-29.
| Crossref | Google Scholar |
Clarke KR, Warwick RM (2001a) A further biodiversity index applicable to species lists: variation in taxonomic distinctness. Marine Ecology Progress Series 216, 265-278.
| Crossref | Google Scholar |
Colvard NB, Edmunds PJ (2011) Decadal-scale changes in abundance of non-scleractinian invertebrates on a Caribbean coral reef. Journal of Experimental Marine Biology and Ecology 397, 153-160.
| Crossref | Google Scholar |
Connolly SR, Bellwood DR, Hughes TP (2003) Indo-Pacific biodiversity of coral reefs: deviations from a mid-domain model. Ecology 84, 2178-2190.
| Crossref | Google Scholar |
Du F, Wang X, Lin Z (2015) 南沙群岛美济礁海域夏季浮游动物群落特征 [The characteristics of summer zooplankton community in the Meiji coral reef, Nansha Islands, South China Sea.]. 生态学报 [Acta Ecologica Sinica] 35, 1014-1021 [In Chinese].
| Crossref | Google Scholar |
Ellis JI, Jamil T, Anlauf H, Coker DJ, Curdia J, Hewitt J, Jones BH, Krokos G, Kürten B, Hariprasad D, Roth F, Carvalho S, Hoteit I (2019) Multiple stressor effects on coral reef ecosystems. Global Change Biology 25, 4131-4146.
| Crossref | Google Scholar | PubMed |
Fenner D (2012) Challenges for managing fisheries on diverse coral reefs. Diversity 4, 105-160.
| Crossref | Google Scholar |
Fisher R, O’Leary RA, Low-Choy S, Mengersen K, Knowlton N, Brainard RE, Caley MJ (2015) Species richness on coral reefs and the pursuit of convergent global estimates. Current Biology 25, 500-505.
| Crossref | Google Scholar | PubMed |
Gao Y, Huang H, Lian JS, Yang JH (2014) 西沙群岛礁栖鱼类物种多样性及其食性特征 [The species diversity and trophic structure of reef fishes in the waters of the Xisha Archipelago.]. 生物多样性 [Biodiversity Science] 22, 618-623 [In Chinese].
| Crossref | Google Scholar |
Graham NAJ, Jennings S, MacNeil MA, Mouillot D, Wilson SK (2015) Predicting climate-driven regime shifts versus rebound potential in coral reefs. Nature 518, 94-97.
| Crossref | Google Scholar | PubMed |
Hoegh-Guldberg O, Mumby PJ, Hooten AJ, Steneck RS, Greenfield P, Gomez E, Harvell CD, Sale PF, Edwards AJ, Caldeira K, Knowlton N, Eakin CM, Iglesias-Prieto R, Muthiga N, Bradbury RH, Dubi A, Hatziolos ME (2007) Coral reefs under rapid climate change and ocean acidification review. Science 318, 1737-1742.
| Crossref | Google Scholar |
Hu G, Zhang Q (2016) Seasonal variations in macrobenthic taxonomic diversity and the application of taxonomic distinctness indices in Bohai Bay, northern China. Ecological Indicators 71, 181-190.
| Crossref | Google Scholar |
Hughes TP, Huang H, Young MAL (2013) The wicked problem of China’s disappearing coral reefs. Conservation Biology 27, 261-269.
| Crossref | Google Scholar | PubMed |
Hughes TP, Barnes ML, Bellwood DR, Cinner JE, Cumming GS, Jackson JBC, Kleypas J, van de Leemput IA, Lough JM, Morrison TH, Palumbi SR, van Nes EH, Scheffer M (2017a) Coral reefs in the Anthropocene. Nature 546, 82-90.
| Crossref | Google Scholar | PubMed |
Hughes TP, Kerry JT, Alvarez-Noriega M, Alvarez-Romero, JG, Wilson SK, et al. (2017b) Global warming and recurrent mass bleaching of corals. Nature 543, 373-377.
| Crossref | Google Scholar |
Hughes TP, Kerry JT, Baird AH, Connolly SR, Dietzel A, Eakin CM, Heron SF, Hoey AS, Hoogenboom MO, Liu G, McWilliam MJ, Pears RJ, Pratchett MS, Skirving WJ, Stella JS, Torda G (2018) Global warming transforms coral reef assemblages. Nature 556, 492-496.
| Crossref | Google Scholar |
Idjadi JA, Edmunds PJ (2006) Scleractinian corals as facilitators for other invertebrates on a Caribbean reef. Marine Ecology Progress Series 319, 117-127.
| Crossref | Google Scholar |
Jayaprabha N, Purusothaman S, Srinivasan M (2018) Biodiversity of coral reef associated fishes along southeast coast of India. Regional Studies in Marine Science 18, 97-105.
| Crossref | Google Scholar |
Ji L, He P, Ye J, Peng S (2017) 近50年来洪湖鱼类群落分类学多样性变动 [Changes in the taxonomic diversity of the fish communities of Honghu Lake over the past 50 years.]. 湖泊科学 [Journal of Lake Sciences] 29, 932-941 [In Chinese].
| Crossref | Google Scholar |
Jia DD, Chen ZH, Zhang W, Yu KF, Wang JK, Ma X, Y, Xu H (2018) 南海珊瑚礁区34年卫星遥感海表温度变化的时空特征分析 [Spatial and temporal characteristics of 34-year satellite remote sensing sea surface temperature variation in coral reef areas of the South China Sea.]. 海洋学报 [Acta Oceanologica Sinica] 40, 112-120.
| Crossref | Google Scholar |
Jiang Z-G, Ji L-Q (1999) 鸟兽物种多样性测度的G-F指数方法 [Avian–mammalian species diversity in nine representative sites in China.]. 生物多样性 [Biodiversity Science] 7, 220-225 [In Chinese].
| Crossref | Google Scholar |
Leonard DRP, Robert Clarke K, Somerfield PJ, Warwick RM (2006) The application of an indicator based on taxonomic distinctness for UK marine biodiversity assessments. Journal of Environmental Management 78, 52-62.
| Crossref | Google Scholar | PubMed |
Li YZ, Lin ZJ, Chen PM, Sun DR, Chen Y, Chen GB, Zhang XF (2003) 南沙群岛中北部重要岛礁鱼类资源调查 [Fish resources survey of important islands and reefs in the north central Nansha Islands.]. 水产学报 [Journal of Fisheries of China] 27, 315-321 [In Chinese].
| Crossref | Google Scholar |
Li YZ, Shi YR, Ai H, Dong LN, Li NN, Li X, Gao TX (2011) 南海珊瑚礁海域鱼类分类多样性大尺度分布格局 [Large scale distribution patterns of taxonomic diversity of fish in coral reef waters, South China Sea.]. 中国水产科学 [Journal of Fishery Sciences of China] 18, 619-628 [In Chinese].
| Crossref | Google Scholar |
Li Y, Chen Z, Zhang J (2021) Fish composition and diversity of four coral reefs in the South China Sea based on hand-line catch. Journal of Marine Science and Engineering 10, 38.
| Crossref | Google Scholar |
Liu XH (2020) 浅谈西沙群岛海域生态环境现状 [A brief introduction to the current ecological environment of the Xisha Islands Sea.]. 化工管理 [Chemical Management] 20, 54-55 [In Chinese].
| Google Scholar |
Liu J, Xiao SY (2021) 印太交汇区海洋鱼类多样性格局与演化研究进展 [Progress in the study of marine fish diversity patterns and evolution in the Indo-Pacific Convergence Zone.]. 海洋与湖沼 [Oceanologia et Limnologia Sinica 52, 498-507 [In Chinese].
| Crossref | Google Scholar |
Long LJ, Yang FF, Wei ZL (2019) 珊瑚礁生态系统修复研究进展 [A review on ecological restoration techniques of coral reefs.]. 热带海洋学报 [Journal of Tropical Oceanography 38, 1-8 [In Chinese].
| Crossref | Google Scholar |
McClanahan TR (2018) Multicriteria estimate of coral reef fishery sustainability. Fish and Fisheries 19, 807-820.
| Crossref | Google Scholar |
Melbourne-Thomas J, Johnson CR, Aliño PM, Geronimo RC, Villanoy CL, Gurney GG (2011) A multi-scale biophysical model to inform regional management of coral reefs in the western Philippines and South China Sea. Environmental Modelling & Software 26, 66-82.
| Crossref | Google Scholar |
Mora C, Chittaro PM, Sale PF, Kritzer JP, Ludsin SA (2003) Patterns and processes in reef fish diversity. Nature 421, 933-936.
| Crossref | Google Scholar | PubMed |
Mouillot D, Laune J, Tomasini J-A, Aliaume C, Brehmer P, Dutrieux E, Do Chi T (2005) Assessment of coastal lagoon quality with taxonomic diversity indices of fish, zoobenthos and macrophyte communities. Hydrobiologia 550, 121-130.
| Crossref | Google Scholar |
Munday PL, Jones GP, Pratchett MS, Williams AJ (2008) Climate change and the future for coral reef fishes. Fish and Fisheries 9, 261-285.
| Crossref | Google Scholar |
Münkemüller T, de Bello F, Meynard CN, Gravel D, Lavergne S, Mouillot D, Mouquet N, Thuiller W (2012) From diversity indices to community assembly processes: a test with simulated data. Ecography 35, 468-480.
| Crossref | Google Scholar |
Ng PK, Tan KS (2000) The state of marine biodiversity in the South China Sea. The Raffles Bulletin of Zoology 48, 3-7.
| Google Scholar |
Pearson RG, Connolly NM, Davis AM, Brodie JE (2021) Fresh waters and estuaries of the Great Barrier Reef catchment: effects and management of anthropogenic disturbance on biodiversity, ecology and connectivity. Marine Pollution Bulletin 166, 112194.
| Crossref | Google Scholar | PubMed |
Purusothaman S, Jayaprabha N, Murugesan P (2016) Diversity and seasonal variation of fish assemblages associated with trawl catches from southeast coast of India. Regional Studies in Marine Science 6, 29-36.
| Crossref | Google Scholar |
Rinkevich B (2008) Management of coral reefs: we have gone wrong when neglecting active reef restoration. Marine Pollution Bulletin 56, 1821-1824.
| Crossref | Google Scholar | PubMed |
Robinson JPW, Wilson SK, Jennings S, Graham NAJ (2019) Thermal stress induces persistently altered coral reef fish assemblages. Global Change Biology 25, 2739-2750.
| Crossref | Google Scholar | PubMed |
Rummer JL, Munday PL (2017) Climate change and the evolution of reef fishes: past and future. Fish and Fisheries 18, 22-39.
| Crossref | Google Scholar |
Scott A, Dixson DL (2016) Reef fishes can recognize bleached habitat during settlement: sea anemone bleaching alters anemonefish host selection. Proceedings of the Royal Society of London 289, 20221217.
| Crossref | Google Scholar |
Shao GZ, Chen ZP, Chen JY, Huang JH, Guo RW (2011) 南海东沙岛及太平岛鱼类种类组成和动物地理学特点 [Species composition and geographical distribution of fishes in Tungsha Island and Taiping Island in the South China Sea.]. 生物多样性 [Biodiversity Science] 19, 737-763 [In Chinese].
| Crossref | Google Scholar |
Shi YR, Li YZ, Lu WH, Sun DF (2009) 东沙群岛珊瑚礁海域鱼类物种分类多样性研究 [Taxonomic diversity of fish species in coral reef area from Dongsha Islands.]. 南方水产科学 [South China Fisheries Science] 5, 10-16 [In Chinese].
| Crossref | Google Scholar |
Subida MD, Drake P, Jordana E, Mavrič B, Pinedo S, Simboura N, Torres J, Salas F (2012) Response of different biotic indices to gradients of organic enrichment in Mediterranean coastal waters: implications of non-monotonic responses of diversity measures. Ecological Indicators 19, 106-117.
| Crossref | Google Scholar |
Sun D, Lin Z, Qiu Y, Wang X (2005) 西沙群岛重要珊瑚礁海域鱼类区系 [Fish fauna of coral reef waters of the Xisha Islands.]. 南方水产科学 [South China Fisheries Science] 1, 18-25 [In Chinese].
| Crossref | Google Scholar |
Wang C, Cheng H, Wang S, Wei M, Du D (2021) Plant community and the influence of plant taxonomic diversity on community stability and invasibility: a case study based on Solidago canadensis L. Science of The Total Environment 768, 144518.
| Crossref | Google Scholar |
Warwick RM, Light J (2002) Death assemblages of mollusks on St Martin’s Flats, Isles of Scilly, a surrogate for regional biodiversity? Biodiversity and Conservation 11, 99-112.
| Crossref | Google Scholar |
Warwick RM, Ashman CM, Brown AR, Clarke KR, Dowell B, Hart B, Lewis RE, Shillabeer N, Somerfield PJ, Tapp JF (2002) Inter-annual changes in the biodiversity and community structure of the macrobenthos in Tees Bay and the Tees Estuary, UK, associated with local and regional environmental events. Marine Ecology Progress Series 234, 1-13.
| Crossref | Google Scholar |
Wilson SK, Fisher R, Pratchett MS, Graham NAJ, Dulvy NK, Turner RA, Cakacaka A, Polunin NVC, Rushton SP (2008) Exploitation and habitat degradation as agents of change within coral reef fish communities. Global Change Biology 14, 2796-2809.
| Crossref | Google Scholar |
Yang XJ, Zhang SM, Zhang XX, Feng WY (2005) 春季三江平原大型水鸟区系组成及多样性分析 [The composition and analysis of large water-birds diversity in the Three River plain aAreas.]. 东北林业大学学报 [Journal of Northeast Forestry University] 33, 56-58 [In Chinese].
| Crossref | Google Scholar |
Yang DT, Liu S, Fei DB, Yu XL, Gu YL, Lu HJ, Chen HM, Zhu JC (2008) 江西齐云山自然保护区两栖爬行动物资源调查与区系分析 [Field survey and faunal analysis on herpetological resources in Qiyunshan Nature Reserve, Jiangxi Province.]. 动物学杂志 [Chinese Journal of Zoology] 43, 68-76 [In Chinese].
| Crossref | Google Scholar |
Yang WD, Hu JT, Lin BA, Huang H, Liu M (2018) 西沙赵述岛海域珊瑚礁鱼类物种多样性 [Diversity of coral reef fish species in the waters of Zhao Shu Island, Xisha.]. 厦门大学学报(自然科学版) [Journal of Xiamen University (Natural Science)] 57, 819-826 [In Chinese].
| Crossref | Google Scholar |
Zeng R, Liu J, Xu Y, Yang L (2021) 海洋生态保护红线存在问题及评估调整建议 [Problems of marine ecological protection red line and assessment and adjustment suggestions.]. 海洋环境科学 [Marine Environmental Science] 40, 576-590 [In Chinese].
| Crossref | Google Scholar |
Zhang YL (1998) 植物区系地理研究中的重要参数 –相似性系数 [Important parameters in the study of flora fauna-similarity coefficient.]. 地理研究 [Geographical Research] 17, 429-434 [In Chinese].
| Crossref | Google Scholar |
Zhang H, Lu JJ (2007) 鱼类分类多样性估算方法在长江河口区的应用 [Application of fish diversity estimation methods in the Yangtze estuary.]. 华东师范大学学报(自然科学版) [Journal of East China Normal University (Natural Science)] 2, 11-22 [In Chinese].
| Crossref | Google Scholar |
Zhang S-P, Zhang Z-W, Xu J-L, Sun Q-H, Liu D-P (2002) 天津市水鸟多样性分析 [The analysis of waterbird diversity in Tianjin.]. 生物多样性 [Biodiversity Science] 10, 280-285 [In Chinese].
| Crossref | Google Scholar |
Zhang J, Chen Z-Z, Dong J-D, Zhang K, Lin Z-J, Sun D-R (2020) 近20年南海四带笛鲷(Lutjanus kasmira)种群特征变化 [Changes in the population characteristics of four-banded snapper (Lutjanus kasmira) in the South China Sea in the last 20 years.]. 海洋与湖沼 [Oceanologia et Limnologia Sinica] 39, 114-124 [In Chinese].
| Crossref | Google Scholar |
Zhao H, Wang L, Yuan J (2016) 南海诸岛珊瑚礁可持续发展 [Sustainable development of the coral reefs in the South China Sea islands.]. 热带地理 [Tropical Geography] 36, 55-65 [In Chinese].
| Crossref | Google Scholar |