大型海藻生境的生态功能及其在海洋牧场应用中的探讨
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摘要
大型海藻是近岸海洋生态系统生态过程的重要驱动者之一,由大型海藻所形成的海藻场栖息地在维持海洋生物摄食、生长和繁殖等生命活动中扮演着极为重要的角色。然而,近年来受环境变化和人类活动等因素的影响,全球范围内许多沿海国家都出现了海藻场快速退化的现象,且对以海藻场为关键栖息地的海洋生物造成了不可忽略的影响,这一状况在我国尤为严重。为保障海洋生物资源可持续利用,海藻场修复已成为我国近岸海域生态环境保护的重要工作之一。但由于对海藻及其构造生境的生态功能认识不足,有关海藻场修复的目标定位、实现路径等存在较大的盲目性。本文从海藻场修复的角度出发,先分别对海藻及其构造生境的生态功能进行了阐述,而后对海藻养殖区是否可替代天然藻场被纳入到海洋牧场的建设中以及海藻生境生态功能的量化测定提出了几点思考,以期为今后海藻场修复工作合理、高效地开展和海藻养殖产业的可持续发展提供参考。
Seaweed is one of the most important coastal ecosystem-engineers, and the habitat formed by it plays an important role in supporting ecological behaviors(e.g. feeding, growth and recruitment, etc) of marine organisms.However, seaweed beds are declining around the world due to the environmental changes and human activities,which makes non-negligible impact on organisms inhabited there. China suffered severely from this situation. To achieve the goal of sustainable utilization of marine resources, the restoration of seaweed beds is becoming an important assignment of China's ecological environment protection in coastal areas. However, the lack of understanding of ecological function of seaweed and seaweed-formed habitat makes the objectives and methods of the seaweed beds restoration unclear. In this paper, we summarized the ecological function of seaweed and seaweed-formed habitat, such as seaweed beds and seaweed farming area in the context of ecological restoration of seaweed beds. Furthermore, we put forward some thoughts about whether it's suitable for the seaweed farming to be incorporated into the construction of sea ranching. We also suggested some quantitative measures of ecological function in seaweed-formed habitat. Our analysis may provide references for restoring seaweed beds reasonably and efficiently, and sustainable development of seaweed farming industry in the future.
Seaweed is one of the most important coastal ecosystem-engineers, and the habitat formed by it plays an important role in supporting ecological behaviors(e.g. feeding, growth and recruitment, etc) of marine organisms.However, seaweed beds are declining around the world due to the environmental changes and human activities,which makes non-negligible impact on organisms inhabited there. China suffered severely from this situation. To achieve the goal of sustainable utilization of marine resources, the restoration of seaweed beds is becoming an important assignment of China's ecological environment protection in coastal areas. However, the lack of understanding of ecological function of seaweed and seaweed-formed habitat makes the objectives and methods of the seaweed beds restoration unclear. In this paper, we summarized the ecological function of seaweed and seaweed-formed habitat, such as seaweed beds and seaweed farming area in the context of ecological restoration of seaweed beds. Furthermore, we put forward some thoughts about whether it's suitable for the seaweed farming to be incorporated into the construction of sea ranching. We also suggested some quantitative measures of ecological function in seaweed-formed habitat. Our analysis may provide references for restoring seaweed beds reasonably and efficiently, and sustainable development of seaweed farming industry in the future.
引文
[1]章守宇,汪振华,林军,等.枸杞岛海藻场夏、秋季的渔业资源变化[J].海洋水产研究,2007,28(1):45-52.Zhang S Y,Wang Z H,Lin J,et al.Variation of fisheries resources in summer and autumn in seaweed beds of Gouqi Island[J].Marine Fisheries Research,2007,28(1):45-52(in Chinese).
[2]Yamamoto M,Fukushima M,Liu D.The effect of humic substances on iron elution in the method of restoration of seaweed beds using steelmaking slag[J].ISIJ International,2012,52(10):1909-1913.
[3]孙建璋,庄定根,王铁杆,等.南麂列岛铜藻场建设设计与初步实施[J].现代渔业信息,2009,24(7):25-28.Sun J Z,Zhuang D G,Wang T G,et al.Design and primary enforcement of Sargassum horneri ground establishment around Nanji Islands[J].Modern Fisheries Information,2009,24(7):25-28(in Chinese).
[4]孙建璋,庄定根.南麂海藻资源状况堪忧[J].现代渔业信息,2008,23(12):30-31.Sun J Z,Zhuang D G.Worry about seaweed resources around Nanji Islanfds[J].Modern Fisheries Information,2008,23(12):30-31(in Chinese).
[5]徐惠君,黄文怡,王菲,等.洞头海区大型海藻养殖净化海水水质的研究[J].生物学通报,2011,46(3):49-50.Xu H J,Huang W Y,Wang F,et al.Study on the seawater quality improvement by means of macro-algae culture in Dongtou area[J].Bulletin of Biology,2011,46(3):49-50(in Chinese).
[6]权伟,应苗苗,康华靖,等.中国近海海藻养殖及碳汇强度估算[J].水产学报,2014,38(4):510-515.Quan W,Ying M M,Kang H J,et al.Marine algae culture and the estimation of carbon sink capacity in the coastal areas of China[J].Journal of Fisheries of China,2014,38(4):510-515(in Chinese).
[7]杨宇峰,宋金明,林小涛,等.大型海藻栽培及其在近海环境的生态作用[J].海洋环境科学,2005,24(3):77-80.Yang Y F,Song J M,Lin X T,et al.Seaweed cultivation and its ecological roles in coastal waters[J].Marine Environmental Science,2005,24(3):77-80(in Chinese).
[8]Atkinson M J,Smith S V.C∶N∶P ratios of benthic marine plants[J].Limnology and Oceanography,1983,28(3):568-574.
[9]Gao K S,McKinley K R.Use of macroalgae for marine biomass production and CO2 remediation:A review[J].Journal of Applied Phycology,1994,6(1):45-60.
[10]Egan B,Yarish C.Productivity and life history of Laminaria longicruris at its southern limit in the western Atlantic Ocean[J].Marine Ecology Progress Series,1990,67:263-273.
[11]Louren?o S O,Barbarino E,Nascimento A,et al.Tissue nitrogen and phosphorus in seaweeds in a tropical eutrophic environment:what a long-term study tells us[J].Journal of Applied Phycology,2006,18(3-5):389-398.
[12]李赵嘉,曾昭春,贾佩峤,等.大型海藻对氮磷吸收能力的初步研究[J].河北渔业,2014(1):1-4,11.Li Z J,Zeng Z C,Jia P Q,et al.Preliminary studies on the nitrogen and phosphorus absorption capability of seaweeds[J].Hebei Fisheries,2014(1):1-4,11(in Chinese).
[13]Hatcher B G,Chapman A R O,Mann K H.An annual carbon budget for the kelp Laminaria longicruris[J].Marine Biology,1977,44(1):85-96.
[14]Polis G A,Hurd S D.Linking marine and terrestrial food webs:Allochthonous input from the ocean supports high secondary productivity on small islands and coastal land communities[J].The American Naturalist,1996,147(3):396-423.
[15]Mann K H.Seaweeds:Their productivity and strategy for growth[J].Science,1973,182(4116):975-981.
[16]Hay M E.Fish-Seaweed interactions on coral reefs:Effects of herbivorous fishes and adaptations of their prey[M]//Sale P F.The ecology of fishes on coral reefs.San Diego:Academic Press,1991:96-119.
[17]Rich W A,Schubert N,Schl?pfer N,et al.Physiological and biochemical responses of a coralline alga and a sea urchin to climate change:implications for herbivory[J].Marine Environmental Research,2018,142:100-107.
[18]Johnson M D,Carpenter R C.Ocean acidification and warming decrease calcification in the crustose coralline alga Hydrolithon onkodes and increase susceptibility to grazing[J].Journal of Experimental Marine Biology and Ecology,2012,434-435:94-101.
[19]郑新庆,黄凌风,李元超,等.啃食性端足类强壮藻钩虾对筼筜湖三种大型海藻的摄食选择性[J].生态学报,2013,33(22):7166-7172.Zheng X Q,Huang L F,Li Y C,et al.The feeding selectivity of an herbivorous amphipod Ampithoe valida on three dominant macroalgal species of Yundang Lagoon[J].Acta Ecologica Sinica,2013,33(22):7166-7172(in Chinese).
[20]周曦杰,章守宇,王旭,等.枸杞岛海藻场角蝾螺夏季摄食选择性及其生态学意义[J].水产学报,2015,39(4):511-519.Zhou X J,Zhang S Y,Wang X,et al.The feeding behaviour and ecological function during summer of one herbivore on seaweed bed in Gouqi island:the gastropod,Turbo cornutus Solander[J].Journal of Fisheries of China,2015,39(4):511-519(in Chinese).
[21]吴程宏,章守宇,周曦杰,等.岛礁海藻场沉积有机物来源辨析[J].水产学报,2017,41(8):1246-1255.Wu C H,Zhang S Y,Zhou X J,et al.Identifying sources of sedimentary organic matter in the rocky reef seaweed bed[J].Journal of Fisheries of China,2017,41(8):1246-1255(in Chinese).
[22]Mann K H.Macrophyte production and detritus food chains in coastal waters[J].Memorie Ist Italiana Idrobiology,1972,29(S1):353-383.
[23]Miller R J,Mann K H,Scarratt D J.Production potential of a seaweed-lobster community in eastern Canada[J].Journal of the Fisheries Research Board of Canada,1971,28(11):1733-1738.
[24]Johnston C S,Jones R G,Hunt R D.A seasonal carbon budget for a laminarian population in a Scottish sealoch[J].Helgol?nder Wissenschaftliche Meeresuntersuchungen,1977,30(1-4):527-545.
[25]Bishop M J,Coleman M A,Kelaher B P.Cross-habitat impacts of species decline:Response of estuarine sediment communities to changing detrital resources[J].Oecologia,2010,163(2):517-525.
[26]陈亮然,章守宇,陈彦,等.枸杞岛马尾藻场铜藻的生命史与形态特征[J].水产学报,2015,39(8):1218-1229.Chen L R,Zhang S Y,Chen Y,et al.Life history and morphology of Sargassum horneri from the Sargassum seaweed bed of Gouqi Island[J].Journal of Fisheries of China,2015,39(8):1218-1229(in Chinese).
[27]Starko S,Smyth C,Kucera H.Attachment strength of the herbivorous rockweed isopod,Idotea wosnesenskii(Isopoda,Crustaceae,Arthropoda),depends on properties of its seaweed host[J].Journal of Experimental Marine Biology and Ecology,2016,477:1-6.
[28]Chemello R,Milazzo M.Effect of algal architecture on associated fauna:Some evidence from phytal molluscs[J].Marine Biology,2002,140(5):981-990.
[29]Hay M E,Pawlik J R,Duffy J E,et al.Seaweedherbivore-predator interactions:host-plant specialization reduces predation on small herbivores[J].Oecologia,1989,81(3):418-427.
[30]Newcombe E M,Taylor R B.Trophic cascade in a seaweed-epifauna-fish food chain[J].Marine Ecology Progress Series,2010,408:161-167.
[31]Stachowicz J J,Hay M E.Facultative mutualism between an herbivorous crab and a coralline alga:advantages of eating noxious seaweeds[J].Oecologia,1996,105(3):377-387.
[32]刘书荣,周曦杰,章守宇,等.贻贝筏式养殖区附生大型海藻与两种附着端足目的关系[J].生态学杂志,2018,37(9):2737-2744.Liu S R,Zhou X J,Zhang S Y,et al.Relationship between epiphytic seaweeds and two seaweed-associated amphipods in mussel raft culture area[J].Chinese Journal of Ecology,2018,37(9):2737-2744(in Chinese).
[33]Christie H,J?rgensen N M,Norderhaug K M,et al.Species distribution and habitat exploitation of fauna associated with kelp(Laminaria hyperborea)along the Norwegian Coast[J].Journal of the Marine Biological Association of the United Kingdom,2003,83(4):687-699.
[34]Saarinen A,Salovius-Laurén S,Mattila J.Epifaunal community composition in five macroalgal species-What are the consequences if some algal species are lost?[J].Estuarine,Coastal and Shelf Science,2018,207:402-413.
[35]Kanstinger P,Beher J,Grenzd?rffer G,et al.What is left?Macrophyte meadows and Atlantic herring(Clupea harengus)spawning sites in the Greifswalder Bodden,Baltic Sea[J].Estuarine,Coastal and Shelf Science,2018,201:72-81.
[36]Bégin C,Johnson L E,Himmelman J H.Macroalgal canopies:Distribution and diversity of associated invertebrates and effects on the recruitment and growth of mussels[J].Marine Ecology Progress Series,2004,271:121-132.
[37]Mann K H.Ecological energetics of the seaweed zone in a marine bay on the Atlantic coast of Canada.I.Zonation and biomass of seaweeds[J].Marine Biology,1972,12(1):1-10.
[38]Tano S A,Eggertsen M,Wikstr?m S A,et al.Tropical seaweed beds as important habitats for juvenile fish[J].Marine and Freshwater Research,2017,68(10):1921-1934.
[39]Winkler N S,Pérez-Matus A,VillenaáA,et al.Seasonal variation in epifaunal communities associated with giant kelp(Macrocystis pyrifera)at an upwellingdominated site[J].Austral Ecology,2017,42(2):132-144.
[40]Komatsu T,Murakami S I,Kawai H.Some features of jump in water temperature in a Sargassum forest[J].Journal of Oceanography,1996,52(1):109-124.
[41]Komatsu T,Murakami S I.Influence of a Sargassum forest on the spatial distribution of water flow[J].Fisheries Oceanography,1994,3(4):256-266.
[42]Reed D C,Foster M S.The effects of canopy shadings on algal recruitment and growth in a giant kelp forest[J].Ecology,1984,65(3):937-948.
[43]Varela D A,Hernríquez L A,Fernandez P A,et al.Photosynthesis and nitrogen uptake of the giant kelp Macrocystis pyrifera(Ochrophyta)grown close to salmon farms[J].Marine Environmental Research,2018,135:93-102.
[44]HehreⅢE J.Effects of seaweed farming on tropical shallow coral ecosystems[D].Vancouver:University of British Columbia,2016.
[45]Kim J K,Kraemer G P,Yarish C.Field scale evaluation of seaweed aquaculture as a nutrient bioextraction strategy in Long Island Sound and the Bronx River Estuary[J].Aquaculture,2014,433:148-156.
[46]Tuya F,Png-Gonzalez L,Riera R,et al.Ecological structure and function differs between habitats dominated by seagrasses and green seaweeds[J].Marine Environmental Research,2014,98:1-13.
[47]Tano S,Eggertsen M,Wikstr?m S A,et al.Tropical seaweed beds are important habitats for mobile invertebrate epifauna[J].Estuarine,Coastal and Shelf Science,2016,183:1-12.
[48]Levin P S,Hay M E.Responses of temperate reef fishes to alterations in algal structure and species composition[J].Marine Ecology Progress Series,1996,134:37-47.
[49]Eggertsen L,Ferreira C E L,Fontoura L,et al.Seaweed beds support more juvenile reef fish than seagrass beds in a south-western Atlantic tropical seascape[J].Estuarine,Coastal and Shelf Science,2017,196:97-108.
[50]Buschmann A H,Camus C,Infante J,et al.Seaweed production:Overview of the global state of exploitation,farming and emerging research activity[J].European Journal of Phycology,2017,52(4):391-406.
[51]Bouwman A F,Paw?owski M,Liu C,et al.Global hindcasts and future projections of coastal nitrogen and phosphorus loads due to shellfish and seaweed aquaculture[J].Reviews in Fisheries Science,2011,19(4):331-357.
[52]Chopin T,Buschmann A H,Halling C,et al.Integrating seaweeds into marine aquaculture systems:A key toward sustainability[J].Journal of Phycology,2001,37(6):975-986.
[53]江志兵,曾江宁,陈全震,等.大型海藻对富营养化海水养殖区的生物修复[J].海洋开发与管理,2006,23(4):57-63.Jiang Z B,Zeng J N,Chen Q Z,et al.Bioremediation of large-sized seaweeds in eutrophic mariculture areas[J].Ocean Development and Management,2006,23(4):57-63(in Chinese).
[54]毛玉泽,李加琦,薛素燕,等.海带养殖在桑沟湾多营养层次综合养殖系统中的生态功能[J].生态学报,2018,38(9):3230-3237.Mao Y Z,Li J Q,Xue S Y,et al.Ecological functions of the kelp Saccharina japonica in integrated multi-trophic aquaculture,Sanggou Bay,China[J].Acta Ecologica Sinica,2018,38(9):3230-3237(in Chinese).
[55]Duarte C M,Wu J P,Xiao X,et al.Can seaweed farming play a role in climate change mitigation and adaptation?[J].Frontiers in Marine Science,2017,4:100.
[56]Agarwal S,Banerjee K,Saha A,et al.Can seaweed be a potential sink of carbon?[J].International Journal for Research in Applied Science and Engineering Technology,2016,4(8):217-225.
[57]Hill N A O,Rowcliffe J M,Koldewey H J,et al.The interaction between seaweed farming as an alternative occupation and fisher numbers in the central Philippines[J].Conservation Biology,2012,26(2):324-334.
[58]Hill N A O.Livelihood diversification for conservation:Interactions between seaweed farming and fishing in Danajon Bank,Central Philippines[D].London:Imperial College London,2012.
[59]王云祥,李正,秦传新,等.不同季节江蓠脱落物对大型海藻场上覆水的影响[J].南方水产科学,2016,12(2):13-20.Wang Y X,Li X,Qin C X,et al.Effect of Gracilaria confervoides after falling off on overlying water of seaweed field in different seasons[J].South China Fisheries Science,2016,12(2):13-20(in Chinese).
[60]Préat N,De Troch M,Van Leeuwen S,et al.Development of potential yield loss indicators to assess the effect of seaweed farming on fish landings[J].Algal Research,2018,35:194-205.
[61]Ekl?f J S,De La Torre Castro M,Adelsk?ld L,et al.Differences in macrofaunal and seagrass assemblages in seagrass beds with and without seaweed farms[J].Estuarine,Coastal and Shelf Science,2005,63(3):385-396.
[62]Hehre E J,Meeuwig J J.Differential response of fish assemblages to coral reef-based seaweed farming[J].PLoS One,2015,10(3):e0118838.
[63]ólafsson E,Johnstone R W,Ndaro S G M.Effects of intensive seaweed farming on the meiobenthos in a tropical lagoon[J].Journal of Experimental Marine Biology and Ecology,1995,191(1):101-117.
[64]Buzá-Jacobucci G,Pereira-Leite F P.The role of epiphytic algae and different species of Sargassum in the distribution and feeding of herbivorous amphipods[J].Latin American Journal of Aquatic Research,2014,42(2):353-363.
[65]Petchey O L,Gaston K J.Functional diversity:back to basics and looking forward[J].Ecology Letters,2006,9(6):741-758.
[66]Micheli F,Halpern B S.Low functional redundancy in coastal marine assemblages[J].Ecology Letters,2005,8(4):391-400.
[67]Dray S,Choler P,Dolédec S,et al.Combining the fourth-corner and the RLQ methods for assessing trait responses to environmental variation[J].Ecology,2014,95(1):14-21.
[2]Yamamoto M,Fukushima M,Liu D.The effect of humic substances on iron elution in the method of restoration of seaweed beds using steelmaking slag[J].ISIJ International,2012,52(10):1909-1913.
[3]孙建璋,庄定根,王铁杆,等.南麂列岛铜藻场建设设计与初步实施[J].现代渔业信息,2009,24(7):25-28.Sun J Z,Zhuang D G,Wang T G,et al.Design and primary enforcement of Sargassum horneri ground establishment around Nanji Islands[J].Modern Fisheries Information,2009,24(7):25-28(in Chinese).
[4]孙建璋,庄定根.南麂海藻资源状况堪忧[J].现代渔业信息,2008,23(12):30-31.Sun J Z,Zhuang D G.Worry about seaweed resources around Nanji Islanfds[J].Modern Fisheries Information,2008,23(12):30-31(in Chinese).
[5]徐惠君,黄文怡,王菲,等.洞头海区大型海藻养殖净化海水水质的研究[J].生物学通报,2011,46(3):49-50.Xu H J,Huang W Y,Wang F,et al.Study on the seawater quality improvement by means of macro-algae culture in Dongtou area[J].Bulletin of Biology,2011,46(3):49-50(in Chinese).
[6]权伟,应苗苗,康华靖,等.中国近海海藻养殖及碳汇强度估算[J].水产学报,2014,38(4):510-515.Quan W,Ying M M,Kang H J,et al.Marine algae culture and the estimation of carbon sink capacity in the coastal areas of China[J].Journal of Fisheries of China,2014,38(4):510-515(in Chinese).
[7]杨宇峰,宋金明,林小涛,等.大型海藻栽培及其在近海环境的生态作用[J].海洋环境科学,2005,24(3):77-80.Yang Y F,Song J M,Lin X T,et al.Seaweed cultivation and its ecological roles in coastal waters[J].Marine Environmental Science,2005,24(3):77-80(in Chinese).
[8]Atkinson M J,Smith S V.C∶N∶P ratios of benthic marine plants[J].Limnology and Oceanography,1983,28(3):568-574.
[9]Gao K S,McKinley K R.Use of macroalgae for marine biomass production and CO2 remediation:A review[J].Journal of Applied Phycology,1994,6(1):45-60.
[10]Egan B,Yarish C.Productivity and life history of Laminaria longicruris at its southern limit in the western Atlantic Ocean[J].Marine Ecology Progress Series,1990,67:263-273.
[11]Louren?o S O,Barbarino E,Nascimento A,et al.Tissue nitrogen and phosphorus in seaweeds in a tropical eutrophic environment:what a long-term study tells us[J].Journal of Applied Phycology,2006,18(3-5):389-398.
[12]李赵嘉,曾昭春,贾佩峤,等.大型海藻对氮磷吸收能力的初步研究[J].河北渔业,2014(1):1-4,11.Li Z J,Zeng Z C,Jia P Q,et al.Preliminary studies on the nitrogen and phosphorus absorption capability of seaweeds[J].Hebei Fisheries,2014(1):1-4,11(in Chinese).
[13]Hatcher B G,Chapman A R O,Mann K H.An annual carbon budget for the kelp Laminaria longicruris[J].Marine Biology,1977,44(1):85-96.
[14]Polis G A,Hurd S D.Linking marine and terrestrial food webs:Allochthonous input from the ocean supports high secondary productivity on small islands and coastal land communities[J].The American Naturalist,1996,147(3):396-423.
[15]Mann K H.Seaweeds:Their productivity and strategy for growth[J].Science,1973,182(4116):975-981.
[16]Hay M E.Fish-Seaweed interactions on coral reefs:Effects of herbivorous fishes and adaptations of their prey[M]//Sale P F.The ecology of fishes on coral reefs.San Diego:Academic Press,1991:96-119.
[17]Rich W A,Schubert N,Schl?pfer N,et al.Physiological and biochemical responses of a coralline alga and a sea urchin to climate change:implications for herbivory[J].Marine Environmental Research,2018,142:100-107.
[18]Johnson M D,Carpenter R C.Ocean acidification and warming decrease calcification in the crustose coralline alga Hydrolithon onkodes and increase susceptibility to grazing[J].Journal of Experimental Marine Biology and Ecology,2012,434-435:94-101.
[19]郑新庆,黄凌风,李元超,等.啃食性端足类强壮藻钩虾对筼筜湖三种大型海藻的摄食选择性[J].生态学报,2013,33(22):7166-7172.Zheng X Q,Huang L F,Li Y C,et al.The feeding selectivity of an herbivorous amphipod Ampithoe valida on three dominant macroalgal species of Yundang Lagoon[J].Acta Ecologica Sinica,2013,33(22):7166-7172(in Chinese).
[20]周曦杰,章守宇,王旭,等.枸杞岛海藻场角蝾螺夏季摄食选择性及其生态学意义[J].水产学报,2015,39(4):511-519.Zhou X J,Zhang S Y,Wang X,et al.The feeding behaviour and ecological function during summer of one herbivore on seaweed bed in Gouqi island:the gastropod,Turbo cornutus Solander[J].Journal of Fisheries of China,2015,39(4):511-519(in Chinese).
[21]吴程宏,章守宇,周曦杰,等.岛礁海藻场沉积有机物来源辨析[J].水产学报,2017,41(8):1246-1255.Wu C H,Zhang S Y,Zhou X J,et al.Identifying sources of sedimentary organic matter in the rocky reef seaweed bed[J].Journal of Fisheries of China,2017,41(8):1246-1255(in Chinese).
[22]Mann K H.Macrophyte production and detritus food chains in coastal waters[J].Memorie Ist Italiana Idrobiology,1972,29(S1):353-383.
[23]Miller R J,Mann K H,Scarratt D J.Production potential of a seaweed-lobster community in eastern Canada[J].Journal of the Fisheries Research Board of Canada,1971,28(11):1733-1738.
[24]Johnston C S,Jones R G,Hunt R D.A seasonal carbon budget for a laminarian population in a Scottish sealoch[J].Helgol?nder Wissenschaftliche Meeresuntersuchungen,1977,30(1-4):527-545.
[25]Bishop M J,Coleman M A,Kelaher B P.Cross-habitat impacts of species decline:Response of estuarine sediment communities to changing detrital resources[J].Oecologia,2010,163(2):517-525.
[26]陈亮然,章守宇,陈彦,等.枸杞岛马尾藻场铜藻的生命史与形态特征[J].水产学报,2015,39(8):1218-1229.Chen L R,Zhang S Y,Chen Y,et al.Life history and morphology of Sargassum horneri from the Sargassum seaweed bed of Gouqi Island[J].Journal of Fisheries of China,2015,39(8):1218-1229(in Chinese).
[27]Starko S,Smyth C,Kucera H.Attachment strength of the herbivorous rockweed isopod,Idotea wosnesenskii(Isopoda,Crustaceae,Arthropoda),depends on properties of its seaweed host[J].Journal of Experimental Marine Biology and Ecology,2016,477:1-6.
[28]Chemello R,Milazzo M.Effect of algal architecture on associated fauna:Some evidence from phytal molluscs[J].Marine Biology,2002,140(5):981-990.
[29]Hay M E,Pawlik J R,Duffy J E,et al.Seaweedherbivore-predator interactions:host-plant specialization reduces predation on small herbivores[J].Oecologia,1989,81(3):418-427.
[30]Newcombe E M,Taylor R B.Trophic cascade in a seaweed-epifauna-fish food chain[J].Marine Ecology Progress Series,2010,408:161-167.
[31]Stachowicz J J,Hay M E.Facultative mutualism between an herbivorous crab and a coralline alga:advantages of eating noxious seaweeds[J].Oecologia,1996,105(3):377-387.
[32]刘书荣,周曦杰,章守宇,等.贻贝筏式养殖区附生大型海藻与两种附着端足目的关系[J].生态学杂志,2018,37(9):2737-2744.Liu S R,Zhou X J,Zhang S Y,et al.Relationship between epiphytic seaweeds and two seaweed-associated amphipods in mussel raft culture area[J].Chinese Journal of Ecology,2018,37(9):2737-2744(in Chinese).
[33]Christie H,J?rgensen N M,Norderhaug K M,et al.Species distribution and habitat exploitation of fauna associated with kelp(Laminaria hyperborea)along the Norwegian Coast[J].Journal of the Marine Biological Association of the United Kingdom,2003,83(4):687-699.
[34]Saarinen A,Salovius-Laurén S,Mattila J.Epifaunal community composition in five macroalgal species-What are the consequences if some algal species are lost?[J].Estuarine,Coastal and Shelf Science,2018,207:402-413.
[35]Kanstinger P,Beher J,Grenzd?rffer G,et al.What is left?Macrophyte meadows and Atlantic herring(Clupea harengus)spawning sites in the Greifswalder Bodden,Baltic Sea[J].Estuarine,Coastal and Shelf Science,2018,201:72-81.
[36]Bégin C,Johnson L E,Himmelman J H.Macroalgal canopies:Distribution and diversity of associated invertebrates and effects on the recruitment and growth of mussels[J].Marine Ecology Progress Series,2004,271:121-132.
[37]Mann K H.Ecological energetics of the seaweed zone in a marine bay on the Atlantic coast of Canada.I.Zonation and biomass of seaweeds[J].Marine Biology,1972,12(1):1-10.
[38]Tano S A,Eggertsen M,Wikstr?m S A,et al.Tropical seaweed beds as important habitats for juvenile fish[J].Marine and Freshwater Research,2017,68(10):1921-1934.
[39]Winkler N S,Pérez-Matus A,VillenaáA,et al.Seasonal variation in epifaunal communities associated with giant kelp(Macrocystis pyrifera)at an upwellingdominated site[J].Austral Ecology,2017,42(2):132-144.
[40]Komatsu T,Murakami S I,Kawai H.Some features of jump in water temperature in a Sargassum forest[J].Journal of Oceanography,1996,52(1):109-124.
[41]Komatsu T,Murakami S I.Influence of a Sargassum forest on the spatial distribution of water flow[J].Fisheries Oceanography,1994,3(4):256-266.
[42]Reed D C,Foster M S.The effects of canopy shadings on algal recruitment and growth in a giant kelp forest[J].Ecology,1984,65(3):937-948.
[43]Varela D A,Hernríquez L A,Fernandez P A,et al.Photosynthesis and nitrogen uptake of the giant kelp Macrocystis pyrifera(Ochrophyta)grown close to salmon farms[J].Marine Environmental Research,2018,135:93-102.
[44]HehreⅢE J.Effects of seaweed farming on tropical shallow coral ecosystems[D].Vancouver:University of British Columbia,2016.
[45]Kim J K,Kraemer G P,Yarish C.Field scale evaluation of seaweed aquaculture as a nutrient bioextraction strategy in Long Island Sound and the Bronx River Estuary[J].Aquaculture,2014,433:148-156.
[46]Tuya F,Png-Gonzalez L,Riera R,et al.Ecological structure and function differs between habitats dominated by seagrasses and green seaweeds[J].Marine Environmental Research,2014,98:1-13.
[47]Tano S,Eggertsen M,Wikstr?m S A,et al.Tropical seaweed beds are important habitats for mobile invertebrate epifauna[J].Estuarine,Coastal and Shelf Science,2016,183:1-12.
[48]Levin P S,Hay M E.Responses of temperate reef fishes to alterations in algal structure and species composition[J].Marine Ecology Progress Series,1996,134:37-47.
[49]Eggertsen L,Ferreira C E L,Fontoura L,et al.Seaweed beds support more juvenile reef fish than seagrass beds in a south-western Atlantic tropical seascape[J].Estuarine,Coastal and Shelf Science,2017,196:97-108.
[50]Buschmann A H,Camus C,Infante J,et al.Seaweed production:Overview of the global state of exploitation,farming and emerging research activity[J].European Journal of Phycology,2017,52(4):391-406.
[51]Bouwman A F,Paw?owski M,Liu C,et al.Global hindcasts and future projections of coastal nitrogen and phosphorus loads due to shellfish and seaweed aquaculture[J].Reviews in Fisheries Science,2011,19(4):331-357.
[52]Chopin T,Buschmann A H,Halling C,et al.Integrating seaweeds into marine aquaculture systems:A key toward sustainability[J].Journal of Phycology,2001,37(6):975-986.
[53]江志兵,曾江宁,陈全震,等.大型海藻对富营养化海水养殖区的生物修复[J].海洋开发与管理,2006,23(4):57-63.Jiang Z B,Zeng J N,Chen Q Z,et al.Bioremediation of large-sized seaweeds in eutrophic mariculture areas[J].Ocean Development and Management,2006,23(4):57-63(in Chinese).
[54]毛玉泽,李加琦,薛素燕,等.海带养殖在桑沟湾多营养层次综合养殖系统中的生态功能[J].生态学报,2018,38(9):3230-3237.Mao Y Z,Li J Q,Xue S Y,et al.Ecological functions of the kelp Saccharina japonica in integrated multi-trophic aquaculture,Sanggou Bay,China[J].Acta Ecologica Sinica,2018,38(9):3230-3237(in Chinese).
[55]Duarte C M,Wu J P,Xiao X,et al.Can seaweed farming play a role in climate change mitigation and adaptation?[J].Frontiers in Marine Science,2017,4:100.
[56]Agarwal S,Banerjee K,Saha A,et al.Can seaweed be a potential sink of carbon?[J].International Journal for Research in Applied Science and Engineering Technology,2016,4(8):217-225.
[57]Hill N A O,Rowcliffe J M,Koldewey H J,et al.The interaction between seaweed farming as an alternative occupation and fisher numbers in the central Philippines[J].Conservation Biology,2012,26(2):324-334.
[58]Hill N A O.Livelihood diversification for conservation:Interactions between seaweed farming and fishing in Danajon Bank,Central Philippines[D].London:Imperial College London,2012.
[59]王云祥,李正,秦传新,等.不同季节江蓠脱落物对大型海藻场上覆水的影响[J].南方水产科学,2016,12(2):13-20.Wang Y X,Li X,Qin C X,et al.Effect of Gracilaria confervoides after falling off on overlying water of seaweed field in different seasons[J].South China Fisheries Science,2016,12(2):13-20(in Chinese).
[60]Préat N,De Troch M,Van Leeuwen S,et al.Development of potential yield loss indicators to assess the effect of seaweed farming on fish landings[J].Algal Research,2018,35:194-205.
[61]Ekl?f J S,De La Torre Castro M,Adelsk?ld L,et al.Differences in macrofaunal and seagrass assemblages in seagrass beds with and without seaweed farms[J].Estuarine,Coastal and Shelf Science,2005,63(3):385-396.
[62]Hehre E J,Meeuwig J J.Differential response of fish assemblages to coral reef-based seaweed farming[J].PLoS One,2015,10(3):e0118838.
[63]ólafsson E,Johnstone R W,Ndaro S G M.Effects of intensive seaweed farming on the meiobenthos in a tropical lagoon[J].Journal of Experimental Marine Biology and Ecology,1995,191(1):101-117.
[64]Buzá-Jacobucci G,Pereira-Leite F P.The role of epiphytic algae and different species of Sargassum in the distribution and feeding of herbivorous amphipods[J].Latin American Journal of Aquatic Research,2014,42(2):353-363.
[65]Petchey O L,Gaston K J.Functional diversity:back to basics and looking forward[J].Ecology Letters,2006,9(6):741-758.
[66]Micheli F,Halpern B S.Low functional redundancy in coastal marine assemblages[J].Ecology Letters,2005,8(4):391-400.
[67]Dray S,Choler P,Dolédec S,et al.Combining the fourth-corner and the RLQ methods for assessing trait responses to environmental variation[J].Ecology,2014,95(1):14-21.