海草碳通量的卫星遥感检测研究进展

doi:10.11978/j.issn.1009-5470.2013.06.016

热带海洋学报 ›› 2013, Vol. 32 ›› Issue (6): 108-114.doi: 10.11978/j.issn.1009-5470.2013.06.016cstr: 32234.14.j.issn.1009-5470.2013.06.016

海草碳通量的卫星遥感检测研究进展

杨顶田^{1, 3}, 刘素敏¹, 单秀娟²

1. 热带海洋环境国家重点实验室(中国科学院南海海洋研究所), 广东广州 510301;
2. 山东省渔业资源与生态环境重点实验室, 中国水产科学研究院黄海水产研究所, 山东青岛 266071;
3. 湖泊与环境国家重点实验室, 江苏南京 210008;

收稿日期:2012-01-09 修回日期:2012-05-02 出版日期:2013-12-20 发布日期:2014-01-21
作者简介:杨顶田(1969— ), 男, 博士后, 研究员, 江苏省东海县人, 主要从事海洋遥感研究。Email: dtyang@scsio.ac.cn
基金资助:
国家重点基础研究发展计划项目(2010CB951203、2013CB956503); 国家自然科学基金项目(41176161); 广东省科技计划项目(2012A031100008); 湖泊与环境国家重点实验室基金项目(2012SKL004)

Progress in detecting seagrass carbon flux over optically shallow water using satellite remote sensing

YANG Ding-tian^{1, 3}, LIU Su-min¹, SHAN Xiu-juan²

1. State Key Laboratory of Tropical Oceanography (South China Sea Institute of Oceanology, Chinese Academy of Sciences), Guangzhou 510301, China;
2. Shandong Provincial Key Laboratory of Fishery Resources and Ecological Environment, Yellow Sea Fisheries Research Institute, Chinese Academy of Fishery Sciences, Qingdao 266071, China;
3. State Key Laboratory of Lake Science and Environment, Nanjing 210008, China;

Received:2012-01-09 Revised:2012-05-02 Online:2013-12-20 Published:2014-01-21

摘要/Abstract

摘要：

近年来, 对于海洋碳汇的研究已经越来越重视, 但很多海洋碳汇的研究还处于发现阶段。海草生态系统是海岸带碳循环的重要组成部分, 对于维持海岸带碳平衡和缓冲区域海洋酸化起到相当重要的作用。对海草生态系统碳通量及循环模式进行研究, 可以为统计我国海洋碳通量提供第一手资料以及为寻找未知碳汇提供重要线索。文章主要综述了海草的碳汇过程、海草在海洋碳汇中的作用、影响海草碳汇的各种因素以及海草碳通量的卫星遥感检测方法和模型等。

关键词: 海草, 碳通量, 卫星遥感

Abstract:

In recent years, more and more attention has been paid to ocean carbon flux, which leads to new discovery of ocean carbon sinks. Studying carbon flux and carbon cycle of seagrass ecosystem can provide first-hand data for calculating ocean carbon flux in China and for finding new carbon sinks. In the paper, the authors summarized seagrass carbon flux process, effects of seagrass on ocean carbon flux, factors affecting seagrass carbon flux, and satellite remote sensing methods and models. The review can provide guide for how to study seagrass carbon flux.

Key words: seagrass, carbon flux, satellite remote sensing

中图分类号:

P735.52

杨顶田, 刘素敏, 单秀娟. 海草碳通量的卫星遥感检测研究进展[J]. 热带海洋学报, 2013, 32(6): 108-114.

YANG Ding-tian, LIU Su-min, SHAN Xiu-juan. Progress in detecting seagrass carbon flux over optically shallow water using satellite remote sensing[J]. Journal of Tropical Oceanography, 2013, 32(6): 108-114.

参考文献

PETERSEN C G J. The sea bottom and its production of fish-food[J]. Rep Dan BiolStn, 1918, 25: 1-62.
MCROY C P, MCMILLAN C. Production ecology and physiology of seagrasses[M]//MCROY C P, HELFFERICH C. Seagrass ecosystems: A scientific perspective. New York: Dekker, 1977: 53-81.
DUARTE C M, CHISCANO C L. Seagrass biomass and production: A reassessment[J]. Aquat Bot, 1999, 65: 159-174.
STEVENSON J C. Comparative ecology of submersed grass beds in freshwater, estuarine and marine environments[J]. Limnol Oceanogr, 1988, 33: 867-893.
DAWES C J. Marine botany[M]. 2nd ed. New York: John Wiley & Sons, 1998: 496.
DUARTE C M, MERINO M, AGAWIN N S R, et al. Root production and below-ground seagrass biomass[J]. Mar Ecol Prog Ser, 1998, 171: 97-108.
KALDY J E, DUNTON K H. Above and below-ground production, biomass and reproductive ecology of Thalassia testudinum (turtle grass) in a subtropical coastal lagoon[J]. Mar Ecol Prog Ser, 2000, 193: 271-283.
PHILLIPS R C, MCROY C P. Handbook of seagrass biology[M]. New York: Garland STPM Press, 1980: 353.
BOROWITZKA M A, LETHBRIDGE R C. Seagrass epiphytes[M]//LARKUM A W D, MCCOMB A J, SHEPHERD S A. Biology of seagrasses. Amsterdam: Elsevier, 1989: 458-499.
MONCREIFF C A, SULLIVAN M J, DAEHNICK A E. Primary production dynamics in seagrass beds of Mississippi Sound: The contributions of seagrass, epiphytic algae, sand microflora and phytoplankton[J]. Mar Ecol Prog Ser, 1992, 87: 161-171.
KALDY J E, ELDRIDGE P M, ONUF C P, et al. Carbon budget for a sub-tropical seagrass dominated coastal lagoon: How important are seagrasses to total ecosystem net primary production?[J]. Estuaries, 2002, 25: 528-539.
GACIA E, DUARTE C M, MIDDELBURG J J. Carbon and nutrient deposition in a Mediterranean seagrass (Posidonia oceanica) meadow[J]. Limnol Oceanogr, 2002, 47: 23-32.
AGAWIN N S R, DUARTE C M. Evidence of direct particle trapping by a tropical seagrass meadow[J]. Estuaries, 2002, 25: 1205-1209.
DUARTE C M, MIDDELBURG J J, CARACO N. Major role of marine vegetation on the oceanic carbon cycle[J]. BGD, 2004, 1: 659-679.
JONES W B, CIFUENTES L A, KALDY J E. Stable carbon isotope evidence for coupling between sedimentary bacteria and seagrasses in a sub-tropical lagoon[J]. Mar Ecol Prog Ser, 2003, 255: 15-25.
DUARTE C M, MIDDELBURG J J, CARACO N. Major role of marine vegetation on the oceanic carbon cycle[J]. Biogeosciences, 2005, 1: 173-180.
PERGENT G, ROMERO J, PERGENT-MARTINI C, et al. Primary production, stocks and fluxes in the Mediterranean seagrass Posidonia oceanica[J]. Mar Ecol Prog Ser, 1994, 106: 139-146.
CEBRÍAN J, DUARTE C M, MARBÀ N. Herbivory on the seagrass Cymodocea nodosa (Ucria) acherson in contrasting Spanish Mediterranean habitats[J]. J Exp Mar Biol Ecol, 1996, 204: 103-111.
CANALS M, BALLESTEROS E. Production of carbonate particles by phytobenthic communities on the Mallorca- Menorca shelf, northwestern Mediterranean Sea[J]. Deep Sea Res Ⅱ, 1997, 44: 611-629.
GATTUSO J P, FRANKIGNOULLE M, WOLLAST R. Carbon and carbonate metabolism in coastal aquatic ecosystems[J]. Annu Rev Ecol Systemat, 1998, 29: 405-434.
GACIA E, DUARTE C M, MARBÀ N, et al. Sediment deposition and production in SE-Asia seagrass meadows[J]. Estuar Coast Shelf Sci, 2003, 56: 909-919.
MATEO M A, ROMERO J. Detritus dynamics in the seagrass Posidonia oceanica: Elements for an ecosystem carbon and nutrient budget[J]. Mar Ecol Prog Ser, 1997, 151: 43-53.
MATEO M A, RENOM P, JULÌA R, et al. An unexplored sedimentary record for the study of environmental change in Mediterranean coastal environments: Posidonia oceanica (L.) Delile peats[J]. Int At Energy Agency CS Papers Ser, 2002, 13: 163-173.
FRANKIGNOULLE M, GATTUSO J P. Air-sea CO₂ exchanges in coastal ecosystems[M]//WOLLAST R, MACKENZIE F T, CHOU L. Interactions of the C, N, P, S biogeochemical cycles and global change. Berlin: Springer-Verlag, 1993, 14: 233-248. .
FRANKIGNOULLE M, BOUQUEGNEAU J M. Beds of the seagrass Posidonia oceanica: Physico-chemical interactions[M]//KEEGAN B F. Space and time series data and analysis in coastal benthic ecology. Galway: Commission of the European Communities, 1991: 563-571.
FRANKIGNOULLE M, BOUQUEGNEAU J M. Daily and yearly variations of total inorganic carbon in a productive coastal area[J]. Estuar Coast Shelf Sci, 1990, 30: 79-89.
FRANKIGNOULLE M. Field measurements of air-sea CO₂ exchange[J]. Limnol Oceanogr, 1988, 33(3): 313-322.
FRANKIGNOULLE M, DISTÈCHE A. Study of the transmission of the diurnal CO₂ concentration changes observed above a Posidonia seagrass bed. A method to determine the turbulent diffusion coefficient in a 8 meters water column[J]. Cont Shelf Res, 1987, 7: 67-76.
FRANKIGNOULLE M, BOUQUEGNEAU J M. Seasonal variations of the diel carbon budget of a marine macrophytes ecosystem[J]. Mar Ecol Prog Ser, 1987, 38: 197-199.
FRANKIGNOULLE M, DISTÈCHE A. CO₂ chemistry in the water column above a Posidonia seagrass bed and related air-sea exchanges[J]. Oceanol Acta, 1984, 7(2): 209-219.
PASQUALINI V, PERGENT-MARTINI C, PERGEN G. Use of SPOT 5 for mapping seagrasses: An application to Posidonia oceanica[J]. Remote Sens Environ, 2005, 94: 39-45.
ANDRÉFOUËT S, KRAMER P, TORRES-PULLIZA D, et al. Multi-site evaluation of IKONOS data for classification of tropical coral reef environments[J]. Remote Sens Environ, 2003, 88: 128-143.
YANG DINGTIAN, YANG CHAOYU. Detection of seagrass distribution changes from 1991 to 2006 in Xincun Bay, Hainan, with satellite remote sensing[J]. Sensors, 2009, 9(2): 830-844.
YANG CHAOYU, YANG DINGTIAN, CAO WENXI, et al. Analysis of seagrass reflectivity by using a water column correction algorithm[J]. Int J Remote Sens, 2010, 31(17-18): 4595-4608.
杨顶田. 海草的卫星遥感检测研究进展[J]. 热带海洋学报, 2007(4)：83-86.
YANG DINGTIAN. Variation of seagrass distribution in Sanya Bay impacted by land use change[J]. Proc SPIE, 2008, 7145(29): 1-8.
YANG DINGTIAN, HUANG DAOJIAN. Impacts of typhoon Tianying and Dawei on seagrass distribution in Xincun Bay, China[J]. Acta Oceanol Sin, 2011, 30(1): 32-39.
DIERSSEN H M. Benthic ecology from space: Optics and net primary production in seagrass and benthic algae across the Great Bahama Bank[J]. Mar Ecol Prog Ser, 2010, 411: 1-15.
DUARTE C M. Allometric scaling of seagrass form and productivity[J]. Mar Ecol Prog Ser, 1991, 77: 289-300.
VERMAAT J E, VERHAGEN F C A, LINDENBURG D. Contrasting responses in two populations of Zostera noltii Hornem. to experimental photoperiod manipulation at two salinities[J]. Aquat Bot, 2000, 67: 179-189.
DENNISON W C, ORTH R J, MOORE K A, et al. Assessing water quality with submersed aquatic vegetation: Habitat requirements as barometers of Chesapeake Bay health[J]. Bioscience, 1993, 43: 86-94.
DUARTE C M. Seagrass depth limits[J]. Aquat Bot, 1991, 40: 363-377.
HAUXWELL J, CEBRIAN J, VALIELA I. Light dependence of Zostera marina annual growth dynamics in estuaries subject to different degrees of eutrophication[J]. Aquat Bot, 2006, 84: 17-25.
DIERSSEN H M, ZIMMERMAN R C, LEATHERS R A, et al. Ocean color remote sensing of seagrass and bathymetry in the Bahamas banks by high resolution airborne imagery[J]. Limnol Oceangr, 2003, 48: 444-455.
MUMBY P, GREEN E, EDWARDS A, et al. Measurement of seagrass standing crop using satellite and digital airborne remote sensing[J]. Mar Ecol Prog Ser, 1997, 159: 51-60.
ORTH R J, MOORE K A. Seasonal and year-to-year variations in the growth of Zoster marina L. (eelgrass) in the lower Chesapeake Bay[J]. Aquat Bot, 1984, 24: 335-341.
VAN LENT F, VERSCHUURE J M. Intraspecific variability of Zoster marina L. (eelgrass) in the estuaries and lagoons of the southwestern Netherlands population dynamics[J]. Aquat Bot, 1994, 48: 31-58.
TOMASKO D A, BRISTOL D L, OTT J A. Assessment of present and future nitrogen loads, water quality, and seagrass (Thalassia testudinum) depth distribution in Lemon Bay, Florida[J]. Estuaries, 2001, 24: 926-938.
DUARTE C M. Submerged aquatic vegetation in relation to different nutrient regimes[J]. Ophelia, 1995, 41: 37-112.
HECK K L, PENNOCK J R, VALENTINE J F, et al. Effects of nutrient enrichment and small predator density on seagrass ecosystems: An experimental assessment[J]. Limnol Oceanogr, 2000, 45: 1041-1057.
POLLARD P C, KOGURE K. The role of epiphytic and epibenthic algal productivity in a tropical seagrass, Syringodium isoetifolium (Aschers.) Dandy, community[J]. Aust J Mar Freshw Res, 1993, 44: 141-154.
POINER I R, WALKER D I, COLES R G. Regional studies-seagrasses of tropical Australia[M]//LARKUM A W D, MCCOMB A J, SHEPHERD S A. Biology of seagrasses: A treatise on the biology of seagrasses with special reference to the Australian region. Amsterdam: Elsevier, 1989: 279-303.
LONG W J L, COLES R G. Flood and cyclone related loss, and partial recovery of more than 1000 km² of seagrass in Hervey Bay, Queensland, Australia[J]. Aquat Bot, 1995, 52: 3-17.
BRODIE J E, STEVEN A, BAER M. The extent of river plumes associated with cyclone Sadie rainfall[C]//STEVEN A D L. Cyclone Sadie flood plumes in the Great Barrier Reef Lagoon: Composition and consequences (Workshop Series No. 22). Townsville: Great Barrier Reef Marine Park Authority, 1997: 27-34.
PREKKER M. The effects of the 1991 central Queensland flood waters around Heron Island, Great Barrier Reef[C]//BYRON G T. Workshop on the impacts of flooding (Workshop Series No. 17). Townsville: Great Barrier Reef Marine Park Authority, 1992: 76-89.
ZIMMERMAN R, CABELLO-PASINI A, ALBERTE R S. Modeling daily production of aquatic macrophytes from irradiance measurements: A comparative analysis[J]. Mar Ecol Prog Ser, 1994, 114: 185-196.
ZIMMERMAN R, STELLER D, KOHRS D. Topdown impact through a bottom-up mechanism: In situ effects of limpet grazing on growth, light requirements and survival of Zostera marina L. (eelgrass)[J]. Mar Ecol Prog Ser, 2001, 218: 127-140.
WETZEL R L, NECKLES H A. A model of Zostera marina L. photosynthesis and growth: Simulated effects of selected physical-chemical variables and biological interactions[J]. Aquat Bot, 1986, 26: 307-323.
ALCOVERRO T, MANZANERA M, ROMERO J. Annual metabolic carbon balance of the seagrass Posidonia oceanica: The importance of carbohydrate reserves[J]. Mar Ecol Prog Ser, 2001, 211: 105-116.
BURD A B, DUNTON K H. Field verification of a light driven model of biomass changes in the seagrass Halodule wrightii[J]. Mar Ecol Prog Ser, 2001, 209: 85-98.
MATEO M A, ROMERO J. Detritus dynamics in the seagrass Posidonia oceanica: Elements for an ecosystem carbon and nutrient budget[J]. Mar Ecol Prog Ser, 1997, 151: 43-53.
MATEO M A. Carbon flux in seagrass ecosystem[M]//LARKUM A W, LARKUM A W D, ORTH R J, et al. Seagrass: Biology, ecology and conservation. Dordrecht: Springer, 2006: 159-192.
BARRóN C, MIDDELBURG J J, DUARTE C M. Phytoplankton trapped within seagrass (Posidonia oceanica) sediments are a nitrogen source: An in situ isotope labeling experiment[J]. Limnol Oceanogr, 2006, 51(4): 1648-1653.
POTTER C, KLOOSTER S, HIATT S, et al. Methane emissions from natural wetlands in the United States: Satellite derived estimation based on ecosystem carbon cycling[J]. Earth Interact, 2006, 10: 1-12.
POTTER C S, RANDERSON J T, FIELD C B, et al. Terrestrial ecosystem production: A process model based on global satellite and surface data[J]. Global Biogeochem Cy, 1993, 7 (4): 811-842.
CHEN J M, LIU J, CIHLAR J, et al. Daily canopy photosynthesis model through temporal and spatial scaling for remote sensing applications[J]. Ecol Model, 1999, 124 (2/3): 99-119.
ADIKU S G K, REICHSTEIN M, LOHILA A, et al. PIXGRO: A model for simulating the ecosystem CO₂ exchange and growth of spring barley[J]. Ecol Model, 2006, 190 (3/4): 260-276.
KIMBALL J S, RUNNING S W, SAATCHI S S. Sensitivity of boreal forest regional water flux and net primary production simulations to sub-grid-scale land cover complexity[J]. J Geophys Res, 1999, 104(D22): 27789-27801.
KIMBALL J S, WHITE M A, RUNNING S W. BIOME-BGC simulations of stand hydrologic processes for BOREAS[J]. J Geophys Res, 1997, 102 (24): 29043-29052.
ZHANG RENHUA, SUN XIAOMIN, ZHU ZHILIN, et al. A remote sensing model of CO₂ flux for wheat and studying of regional distribution[J]. Sci China: Series D, 1999, 42 (3): 325-332.
HOUBORG R M, SOEGAARD H. Regional simulation of ecosystem CO₂ and water vapor exchange for agricultural land using NOAA AVHRR and Terra MODIS satellite data, application to Zealand, Denmark[J]. Remote Sens Environ, 2004, 93 (1/2): 150-167.
BOEGH E, SOEGAARD H. Remote sensing based estimation of evapotranspiration rates[J]. Int J Remote Sens, 2004, 25 (13): 2535-2551.

[1]	凌娟, 梁童茵, 岳维忠, 黄小芳, 孙翠慈, 张健, 张煜航, 周卫国, 董俊德. 热带海草泰来草沉积物真菌的群落结构、功能与分子生态网络研究[J]. 热带海洋学报, 2023, 42(5): 64-75.
[2]	胡晨悦, 丘仲锋, 廖廓, 赵冬至, 吴到懋. 福建海雾的CALIOP遥感监测及基于Himawari-8的云下雾光谱特征分析^*[J]. 热带海洋学报, 2023, 42(4): 104-112.
[3]	韩通, 李晶晶, 刘正一, 刘凯, 张金浩, 秦松, 钟志海. 红纤维虾形草(Phyllospadix iwatensis)种子形态及内部特征[J]. 热带海洋学报, 2022, 41(6): 105-113.
[4]	李一琼, 白俊武, 张丽, 李通. 海草光学遥感监测研究综述[J]. 热带海洋学报, 2021, 40(6): 1-13.
[5]	陈启明, 刘松林, 张弛, 崔黎军, 江志坚, 吴云超, 黄小平. 海南典型热带海草床4种代表性鱼类的生长特征及其对海草资源量变化的响应[J]. 热带海洋学报, 2020, 39(5): 62-70.
[6]	黄小龙, 经志友, 郑瑞玺, 张旭. 南海西部夏季上升流锋面的次中尺度特征分析[J]. 热带海洋学报, 2020, 39(3): 1-9.
[7]	于硕, 张景平, 崔黎军, 江志坚, 张凌, 黄小平. 基于种子法的海菖蒲海草床恢复[J]. 热带海洋学报, 2019, 38(1): 49-54.
[8]	李薛, 付东洋, 张莹, 刘大召, 丁又专, 王文芳, 栾虹, 蒋城飞. 超强台风“威马逊”对南海西北海域海洋环境的影响^*[J]. 热带海洋学报, 2016, 35(6): 19-28.
[9]	林锐, 张彩云, 李炎. 卫星遥感南海海表面日增温的时空变化特征^*[J]. 热带海洋学报, 2014, 33(2): 17-27.
[10]	王新新, 杨建洪, 赵冬至, 王祥, 孙广轮. Aquarius/SAC-D卫星盐度数据在中国南海的准确度评估[J]. 热带海洋学报, 2013, 32(5): 23-28.
[11]	王桂芬曹文熙 , 殷建平, 周雯孙兆华, 杨倩. 海洋颗粒有机碳浓度水色遥感研究进展[J]. 热带海洋学报, 2012, 31(6): 48-56.
[12]	杨何群,杨引明. 热带气旋卫星遥感客观定位方法研究进展[J]. 热带海洋学报, 2012, 31(2): 15-27.
[13]	王喜冬,韩桂军,李威,齐义泉 . 利用卫星观测海面信息反演三维温度场 [J]. 热带海洋学报, 2011, 30(6): 10-17.
[14]	杨超宇,杨顶田,赵俊,. 光学浅水海草高光谱识别[J]. 热带海洋学报, 2010, 29(2): 74-79.
[15]	黄小平,江志坚,张景平,施震,汪飞,叶丰,李磊,. 广东沿海新发现的海草床[J]. 热带海洋学报, 2010, 29(1): 132-135.

海草碳通量的卫星遥感检测研究进展

Progress in detecting seagrass carbon flux over optically shallow water using satellite remote sensing

PDF (PC)

赞

可视化

被引次数

摘要/Abstract

引用本文

使用本文

参考文献

相关文章 15

Metrics

本文评价

推荐阅读 0