Use of Autonomous Reef Monitoring Structures to Monitor Changes in the Marine Environment in Jeju, South Korea: A Brief Review
Ocean Science Journal - 2023
Tóm tắt
Technology for monitoring natural environments can provide a basic understanding of ecosystem changes and information for resource management. The Natural Geography in Shore Areas project is an international collaborative effort for inventorying and monitoring marine biodiversity, and it indicates that Korea is one of the most species-rich regions worldwide. Rising sea surface temperatures due to climate change have significantly affected the distribution of marine organisms, which has led to the recent discovery of various subtropical and tropical organisms and new species on the southern coast of Korea, including Jeju Island. Furthermore, the current marine benthic ecosystem of southern Jeju Island has changed from seaweed-based habitat to coral-dominated habitat owing to climate change. Consequently, the marine organism influx driven by climate change must be monitored because habitat changes caused by sub-tropicalization lead to changes in future marine and fishery resources. To monitor this expansion of marine organisms, autonomous reef monitoring structures (ARMS) can be employed to effectively collect cryptofauna data while reducing the sampling effort, lowering costs, and preventing habitat destruction. Thus, ARMS have been used as an internationally standardized hard benthic substrate monitoring technique in various regions. Moreover, ARMS are environmentally friendly and can more effectively monitor marine ecosystem changes than conventional marine biodiversity research methods. Therefore, ARMS are an essential tool for monitoring benthic ecosystems and represent a potential model tool for observing alterations in marine ecosystems due to climate change.
Từ khóa
Tài liệu tham khảo
Al-Rshaidat MM, Snider A, Rosebraugh S, Devine AM, Devine TD, Plaisance L, Knowlton N, Leray M (2016) Deep COI sequencing of standardized benthic samples unveils overlooked diversity of Jordanian coral reefs in the northern Red Sea. Genome 59(9):724–737. https://doi.org/10.1139/gen-2015-0208
Archana A, Baker DM (2020) Multifunctionality of an urbanized coastal marine ecosystem. Front Mar Sci 7:557145. https://doi.org/10.3389/fmars.2020.557145
Ausubel J (2001) The census of marine life: progress and prospects. Fisheries 26(7):33–36. https://doi.org/10.1577/1548-8446-26-7
Beijbom O, Edmunds PJ, Roelfsema C, Smith J, Kline DI, Neal BP, Dunlap MJ, Moriarty V, Fan TY, Tan CJ, Chan S, Treibitz T, Gamst A, Mitchell BG, Kriegman D (2015) Towards automated annotation of benthic survey images: variability of human experts and operational modes of automation. PLoS ONE 10(7):e0130312. https://doi.org/10.1371/journal.pone.0130312
Chang JJM, Ip YCA, Bauman AG, Huang D (2020) MinION-in-ARMS: Nanopore sequencing to expedite barcoding of specimen-rich macrofaunal samples from autonomous reef monitoring structures. Front Mar Sci 7:448. https://doi.org/10.3389/fmars.2020.00448
Choi JW, Khim JS, Song SJ, Ryu J, Kwon BO (2021) Present status of the quality assurance and control (QA/QC) for Korean macrozoobenthic biological data and suggestions for its improvement. J Korean Soc Oceanogr 26(3):263–276. https://doi.org/10.7850/jkso.2021.26.3.263
Costello MJ, Coll M, Danovaro R, Halpin P, Ojaveer H, Miloslavich P (2010) A census of marine biodiversity knowledge, resources, and future challenges. PLoS ONE 5(8):e12110. https://doi.org/10.1371/journal.pone.0012110
Cruz ICS, Kikuchi RKP, Leão ZMAN (2008) Use of the video transect method for characterizing the Itacolomis reefs, eastern Brazil. Braz J Oceanogr 56(4):271–280. https://doi.org/10.1590/S1679-87592008000400002
David R, Uyarra MC, Carvalho S, Anlauf H, Borja A, Cahill AE, Carugati L, Danovaro R, De Jode A, Feral JP, Guillemain D, Martire ML, D’Avray LTV, Pearman JK, Chenuil A (2019) Lessons from photo analyses of autonomous reef monitoring structures as tools to detect (bio-)geographical, spatial, and environmental effects. Mar Pollut Bull 141:420–429. https://doi.org/10.1016/j.marpolbul.2019.02.066
Fautin D, Dalton P, Incze LS, Leong JA, Pautzke C, Rosenberg A, Sandifer P, Sedberry G, Tunnell JW Jr, Abbott I, Brainard RE, Brodeur M, Eldredge LG, Feldman M, Moretzsohn F, Vroom PS, Wainstein M, Wolff N (2010) An overview of marine biodiversity in United States waters. PLoS ONE 5(8):e11914. https://doi.org/10.1371/journal.pone.0011914
Felder DL, Martin JW (2003) Establishment of a new genus for Panopeus bermudensis Benedict & Rathbun, 1891 and several other xanthoid crabs from the Atlantic and Pacific oceans (Crustacea: Decapoda: Xanthoidea). P Biol Soc Wash 116(2):438–452
Haney TA, Jw M (2004) A new genus and species of leptostracan (Crustacea: Malacostraca: Phyllocarida) from Guana Island, British Virgin Islands, and a review of leptostracan genera. J Nat Hist Mus 38(4):447–469. https://doi.org/10.1080/0022293021000033210
Harley CD, Anderson KM, Demes KW, Jorve JP, Kordas RL, Coyle TA, Graham MH (2012) Effects of climate change on global seaweed communities. J Phycol 48(5):1064–1078. https://doi.org/10.1111/j.1529-2728817.2012.01224.x
Hettiarachchi SA, Hyeon JY, Mahardini A, Kim HS, Byun JH, Kim HJ, Jeong JG, Yeo JK, Kim SK, Kim SJ, Heo YS, Sathyadith J, Kang DH, Hur SP (2022) DNA barcoding and morphological identification of spiny lobsters in South Korean waters: a new record of Panulirus longipes and Panulirus homarus homarus. Peer J. 10:e12744. https://doi.org/10.7717/peerj.12744
Hoegh-Guldberg O, Poloczanska ES, Skirving W, Dove S (2017) Coral reef ecosystems under climate change and ocean acidification. Front Mar Sci 4:158. https://doi.org/10.3389/fmars.2017.00158
Hong HK, Keshavmurthy S, Kang CK, Hwang K, Park SR, Cho SH, Choi KS (2015) Alveopora japonica repopulation of a bare substrate off Jeju Island, Korea. B Mar Sci 91(4):477–478. https://doi.org/10.5343/bms.2015.1028
Hurley KKC, Timmers MA, Godwin LS, Copus JM, Skillings DJ, Toonen RJ (2016) An assessment of shallow and mesophotic reef brachyuran crab assemblages on the south shore of O‘ahu, Hawai‘i. Coral Reefs 35(1):103–112. https://doi.org/10.1007/s00338-015-1382-z
Iken K, Konar B (2003) Natural geography in nearshore areas (NaGISA): the nearshore component of the census of marine life. Gayana 67(2):153–160. https://doi.org/10.4067/s0717-65382003000200004
Jöst AB, Kim T, Yang HS, Kang DH, Karanovic I (2022) Revision of the Semicytherura henryhowei group (Crustacea, Ostracoda) with the new records from Korea. Foss Rec 25(2):307–330
Kang DH, Song JI, Choi KS (2005) Image analysis of typhoon impacts on soft coral community at Munseom in Jeju, Korea Ocean Polar Res 27(1):25–34. https://doi.org/10.4217/OPR.2005.27.1.025
Kang SM, Lee H-G, Kim SL, Choi JW, Park CH, Yu OH (2019) Species composition and community structure of macrobenthos during fall on the Dokdo coast, Korea. Ocean Polar Res 41(2):47–61. https://doi.org/10.4217/OPR.2019.41.2.047
Kim BY, Ko JC, Choi HG (2016) Rock type difference and benthic community structures in the coast of Jeju Korea. Korean J Ecol Environ. 30(6):996–1008. https://doi.org/10.13047/kjee.2016.30.6.996
Kim T, Kim T, Yang HS, Choi SK, Son YB, Kang DH (2022) Alveopora japonica conquering temperate reefs despite massive coral bleaching. Diversity 14(2):86. https://doi.org/10.3390/d14020086
KIOST (2018) International cooperation for participating the Marine Global Earth Observatory (MarineGEO) project and its fundamental application in Jeju. Korea Institute of Ocean Science and Technology, Busan, BSPO01334-11748-7. p 124
Knowlton N, Brainard RE, Fisher R, Moews M, Plaisance L, Caley MJ (2010) Coral reef biodiversity. In: Mclntyre AD (ed) Life in the world’s oceans: diversity, distribution, and abundance. Wiley-Blackwell, New Jersey, pp 65–78
Ko JC, Koo JH, Yang MH (2008) Characteristics of ocean environmental factors and community structure of macrobenthos around Munseom, Jeju Island. Korea Korean J Malacol 24(3):215–228
Ko JC, Koo JH, Lee SJ, Su CD, Hwan JS (2011) Community structure of macrobenthic invertebrates of fishing grounds in the coastal waters of Jeju Island. Korean J Malacol 27(3):229–246. https://doi.org/10.9710/kjm.2011.27.3.229
Konar B, Iken K, Pohle G, Miloslavich P, Cruz-Motta JJ, Benedetti-Cecchi L, Kimani E, Knowlton A, Trott T, Iseto T, Shirayama Y (2010) Surveying nearshore biodiversity. In: Mclntyre AD (ed) Life in the world’s oceans: diversity, distribution, and abundance. Wiley-Blackwell, New Jersey, pp 27–41
Lee K, Go S, Jung S (2021) Long-term changes in fish assemblage structure in the Korea Strait from 1986 to 2010 in relation with climate change. Ocean Sci J 56(2):182–197. https://doi.org/10.1007/s12601-021-00016-0
Leray M, Knowlton N (2015) DNA barcoding and metabarcoding of standardized samples reveal patterns of marine benthic diversity. P Natl Acad Sci. 112(7):2076–2081. https://doi.org/10.1073/pnas.1424997112
Leray M, Wilkins LGE, Apprill A, Bik HM, Clever F, Connolly SR, De León ME, Duffy JE, Ezzat L, Gignoux-Wolfsohn S, Herre EA, Kaye JZ, Kline DI, Kueneman JG, McCormick MK, McMillan WO, O’Dea A, Pereira TJ, Petersen JM, Petticord DF, Torchin ME, Vega Thurber R, Videvall E, Wcislo WT, Yuen B, Eisen JA (2021) Natural experiments and long-term monitoring are critical to understand and predict marine host–microbe ecology and evolution. PLoS Biol 19(8):e3001322. https://doi.org/10.1371/journal.pbio.3001322
Longenecker K (2021) First record of two sublittoral amphipods from Hawai’i. Mar Biodivers Rec 14:9. https://doi.org/10.1186/s41200-021-00205-9
Malone TC, DiGiacomo PM, Gonçalves E, Knap AH, Talaue-McManus L, de Mora S (2014a) A global ocean observing system framework for sustainable development. Mar Policy 43:262–272. https://doi.org/10.1016/j.marpol.2013.06.008
Malone TC, DiGiacomo PM, Gonçalves E, Knap AH, Talaue-McManus L, de Mora S, Muelbert J (2014b) Enhancing the global ocean observing system to meet evidence based needs for the ecosystem-based management of coastal ecosystem services. Nat Resour Forum 38(3):168–181. https://doi.org/10.1111/1477-8947.12045
Martin JW (2002) Microprosthema jareckii, a new species of stenopodidean shrimp (Crustacea: Decapoda: Stenopodidea: Spongicolidae) from Guana Island, British Virgin Islands. P Biol Soc Wash 115(1):108–117
Moberg F, Folke C (1999) Ecological goods and services of coral reef ecosystems. Ecol Econ 29(2):215–233. https://doi.org/10.1016/S0921-8009(99)00009-9
Nygård H, Oinonen S, Hällfors HA, Lehtiniemi M, Rantajärvi E, Uusitalo L (2016) Price vs. value of marine monitoring. Front Mar Sci 3:205. https://doi.org/10.3389/fmars.2016.00205
Obst M, Exter K, Allcock AL, Arvanitidis C, Axberg A, Bustamante M, Cancio I, Carreira-Flores D, Chatzinikolaou E, Chatzigeorgiou G, Chrismas N, Clark MS, Comtet T, Dailianis T, Davies N, Deneudt K, de Cerio OD, Fortič A, Gerovasileiou V, Hablützel PI, Keklikoglou K, Kotoulas G, Lasota R, Leite BR, Loisel S, Lévêque L, Levy L, Malachowicz M, Mavrič B, Meyer C, Mortelmans J, Norkko J, Pade N, Power AM, Ramšak A, Reiss H, Solbakken J, Staehr PA, Sundberg P, Thyrring J, Troncoso JS, Viard F, Wenne R, Yperifanou EI, Zbawicka M, Pavloudi C (2020) A marine biodiversity observation network for genetic monitoring of hard-bottom communities (ARMS-MBON). Front Mar Sci 7:572680. https://doi.org/10.3389/fmars.2020.572680
O’Dor R, Miloslavich P, Yarincik K (2010) Marine biodiversity and biogeography-regional comparisons of global issues, an introduction. PLoS ONE 5(8):e11871. https://doi.org/10.1371/journal.pone.0011871
Pearman JK, Anlauf H, Irigoien X, Carvalho S (2016) Please mind the gap – Visual census and cryptic biodiversity assessment at central Red Sea coral reefs. Mar Environ Res 118:20–30. https://doi.org/10.1016/j.marenvres.2016.04.011
Pearman JK, Leray M, Villalobos R, Machida RJ, Berumen ML, Knowlton N, Carvalho S (2018) Cross-shelf investigation of coral reef cryptic benthic organisms reveals diversity patterns of the hidden majority. Sci Rep 8(1):8090. https://doi.org/10.1038/s41598-018-26332-5
Pennesi C, Danovaro R (2017) Assessing marine environmental status through microphytobenthos assemblages colonizing the autonomous reef monitoring structures (ARMS) and their potential in coastal marine restoration. Mar Pollut Bull 125(1–2):56–65. https://doi.org/10.1016/j.marpolbul.2017.08.001
Pieretti N, Lo Martire M, Farina A, Danovaro R (2017) Marine soundscape as an additional biodiversity monitoring tool: a case study from the Adriatic Sea (Mediterranean Sea). Ecol Indic 83:13–20. https://doi.org/10.1016/j.ecolind.2017.07.011
Plaisance L, Brainard R, Caley MJ, Knowlton N (2011a) Using DNA barcoding and standardized sampling to compare geographic and habitat differentiation of crustaceans: a Hawaiian Islands example. Diversity 3(4):581–591. https://doi.org/10.3390/d3040581
Plaisance L, Caley MJ, Brainard RE, Knowlton N (2011b) The diversity of coral reefs: what are we missing? PLoS ONE 6(10):e25026. https://doi.org/10.1371/journal.pone.0025026
Ransome E, Geller JB, Timmers M, Leray M, Mahardini A, Sembiring A, Collins AG, Meyer CP (2017) The importance of standardization for biodiversity comparisons: A case study using autonomous reef monitoring structures (ARMS) and metabarcoding to measure cryptic diversity on Mo’orea coral reefs, French Polynesia. PLoS ONE 12(4):e0175066. https://doi.org/10.1371/journal.pone.0175066
Reimer JD, Kim S, Arai S, Keshavmurthy S, Choi KS (2018) First records of zooxanthellate Zoanthus (Anthozoa: Hexacorallia: Zoantharia) from Korea and Japan (East) Sea. Mar Biodivers 48(2):1269–1273. https://doi.org/10.1007/s12526-016-0567-1
Rigby PR, Iken K, Shirayama Y (2007) Sampling biodiversity in coastal communities: NaGISA protocols for seagrass and macroalgal habitats. Kyoto University Press, Kyoto, p 160
Roberts CM, McClean CJ, Veron JE, Hawkins JP, Allen GR, McAllister DE, Mittermeier CG, Schueler FW, Spalding M, Wells F, Vynne C, Werner TB (2002) Marine biodiversity hotspots and conservation priorities for tropical reefs. Science 295(5558):1280–1284. https://doi.org/10.1126/science.1067728
Ryu B, Jeon YJ (2018) Development of functional food products with natural materials derived from marine resources. Food Sci Ind 51(2):157–164. https://doi.org/10.23093/FSI.2018.51.2.157
Satterthwaite EV, Bax NJ, Miloslavich P, Ratnarajah L, Canonico G, Dunn D, Simmons SE, Carini RJ, Evans K, Allain V, Appeltans W, Batten S, Benedetti-Cecchi L, Bernard ATF, Bristol S, Benson A, Buttigieg PL, Gerhardinger LC, Chiba S, Davies TE, Duffy JE, Giron-Nava A, Hsu AJ, Kraberg AC, Kudela RM, Lear D, Montes E, Muller-Karger FE, O’Brien TD, Obura D, Provoost P, Pruckner S, Rebelo L-M, Selig ER, Kjesbu OS, Starger C, Stuart-Smith RD, Vierros M, Waller J, Weatherdon LV, Wellman TP, Zivian A (2021) Establishing the foundation for the global observing system for marine life. Front Mar Sci 8:737416. https://doi.org/10.3389/fmars.2021.737416
Seo JY, An SM, Lim DI, Choi JW (2017) Seasonal variations in the community structures of macrobenthic fauna and their health status in an estuarine bay, Gwangyang Bay in Korea. Ocean Sci J 52(3):367–385. https://doi.org/10.1007/s12601-017-0038-z
Seo JY, Kim YO, Choi JW (2019) Summer variations of macrobenthic community structures in Gwangyang bay. Korea Ocean Sci J 54(3):393–406. https://doi.org/10.1007/s12601-019-0016-8
Small A, Adey WH, Spoon D (1998) Are current estimates of coral reef biodiversity too low? The view through the window of a microcosm. Atoll Res Bull 458:1–20. https://doi.org/10.5479/si.00775630.458.1
Sukhotin A, Berger V (2013) Long-term monitoring studies as a powerful tool in marine ecosystem research. Hydrobiologia 706(1):1–9. https://doi.org/10.1007/s10750-013-1456-2
Sunderg P, Axberg A, Daragmeh N, Panova M, Obst M (2022) Genetic methods in environmental monitoring: early detection and monitoring of non-indigenous species based on DNA. Swedish Agency for Marine and Water Management, Gothenburg, p 46
Vicente J, Webb MK, Paulay G, Rakchai W, Timmers MA, Jury CP, Bahr K, Toonen RJ (2021) Unveiling hidden sponge biodiversity within the Hawaiian reef cryptofauna. Coral Reefs 41(3):727–742. https://doi.org/10.1007/s00338-021-02109-7
Vieira C, Keshavmurthy S, Ju SJ, Hyeong K, Seo I, Kang CK, Hong HK, Chen C, Choi KS (2015) Population dynamics of a high latitude coral Alveopora japonica Eguchi from Jeju Island, off the south coast of Korea. Mar Freshwater Res 67(5):594–604. https://doi.org/10.1071/MF14330
Wagner D, Friedlander AM, Pyle RL, Brooks CM, Gjerde KM, Wilhelm TA (2020) Coral reefs of the high seas: hidden biodiversity hotspots in need of protection. Front Mar Sci 7:567428. https://doi.org/10.3389/fmars.2020.567428
Williams MJ, Ausubel J, Poiner I, Garcia SM, Baker DJ, Clark MR, Mannix H, Yarincik K, Halpin PN (2010) Making marine life count: a new baseline for policy. PLOS Biol 8(10):e1000531. https://doi.org/10.1371/journal.pbio.1000531
Yang HJ, Seo JE, Gordon DP (2018) Sixteen new generic records of Korean Bryozoa from southern coastal waters and Jeju Island, East China Sea: evidence of tropical affinities. Zootaxa 4422(4):493–518. https://doi.org/10.11646/zootaxa.4422.4.3
Zamani NP, Rahman L, Rosada RL, Tirtama W (2021) Overview of bioactivity studies on marine natural products. IOP C Ser Earth Env. 944(1):012029. https://doi.org/10.1088/1755-1315/944/1/012029
Zimmerman TL, Martin JW (2004) Artificial reef matrix structures (Arms): an inexpensive and effective method for collecting coral reef-associated invertebrates. Gulf Caribb Res. 16(1):59–64. https://doi.org/10.18785/gcr.1601.08