Advanced search
Publication Cover
International Journal of Remote Sensing Volume 29, 2008 - Issue 23
Submit an article Journal homepage
171
Views
9
CrossRef citations to date
0
Altmetric
Original Articles

Studying the change in fAPAR after forest fires in Siberia using MODIS

M. Cuevas‐González Centre for Ecology and Hydrology Monks Wood, Abbots Ripton, Huntingdon, Cambridgeshire PE28 2LS, UK; Departamento de Geografía, Universidad de Alcalá, Colegios 2, E‐28801, Alcalá de Henares, Madrid, Spain
,
F. Gerard Centre for Ecology and Hydrology Monks Wood, Abbots Ripton, Huntingdon, Cambridgeshire PE28 2LS, UKCorrespondence[email protected]
,
H. Balzter Department of Geography, University of Leicester, University Road, Leicester LE1 7RH, UK
&
D. Riaño Center for Spatial Technologies and Remote Sensing (CSTARS), University of California, 250‐N, The Barn, One Shields Avenue, Davis, CA 95616‐8617, USA; Centro de Ciencias Humanas y Sociales, Consejo Superior De Investigaciones Científicas (CSIC), C/ Albasanz 26‐28, E‐28037, Madrid, Spain
Pages 6873-6892 | Received 31 May 2007, Accepted 12 May 2008, Published online: 13 Nov 2008

References

  • Arseneault , D. 2001 . Impact of fire behaviour on postfire forest development in a homogeneous boreal landscape. . Canadian Journal of Forest Research , 31 : 1367 – 1374 .
  • Babintseva , R. M. and Titova , Y. V. 1996 . “ Effects of fire on the regeneration of Larch forests in the Lake Baikal Basin. ” . In Fire in Ecosystems of Boreal Eurasia , Edited by: Goldammer , J. G and Furyaev , V. V . 358 – 365 . Boston : Kluwer Academic .
  • Balzter , H. , Gerard , F. F. , George , C. T. , Rowland , C. S. , Jupp , T. E. , Macallum , I. , Shvidenko , A. , Nilsson , S. , Sukhinin , A. , Onuchin , A. and Schmullius , C. 2005 . Impact of the arctic oscillation pattern on interannual forest fire variability in central Siberia. . Geophysical Research Letters , 32 doi:10.1029/2005GL022526
  • B artalev , S.A., B elward , A.S., E rchov , D.V. and I saev , A.S., 2003a, The land cover map of Northern Eurasia: method, product and initial users' feedback. Global Land Cover 2000. Available online at http://www‐gvm.jrc.it/glc2000/publications.htm (http://www-gvm.jrc.it/glc2000/publications.htm) (accessed 3 March 2005).
  • Bartalev , S. A. , Belward , A. S. , Erchov , D. V. and Isaev , A. S. 2003b . A new SPOT4‐VEGETATION derived land cover map of Northern Eurasia. . International Journal of Remote Sensing , 24 : 1977 – 1982 .
  • Bergeron , Y. and Dansereau , P. R. 1993 . Predicting the composition of Canadian southern boreal forest in different fire cycles. . Journal of Vegetation Science , 4 : 827 – 832 .
  • Bonan , G. B. 1993 . Importance of Leaf Area Index and forest type when estimating photosynthesis in boreal forests. . Remote Sensing of Environment , 43 : 303 – 314 .
  • Chapin III , F. S. , Sturm , M. , Serreze , M. C. , McFadden , J. P. , Key , J. R. , Lloyd , A. H. , McGuire , A. D. , Rupp , T. S. , Lynch , A. H. , Schimel , J. P. , Beringer , J. , Chapman , W. L. , Epstein , H. E. , Euskirchen , E. S. , Hinzman , L. D. , Jia , G. , Ping , C.‐L. , Tape , K. D. , Thompson , C. D. C. , Walker , D. A. and Welker , J. M. 2005 . Role of land‐surface changes in Arctic summer warming. . Science , 310 : 657 – 660 .
  • Cumming , S. G. 2001 . Forest type and wildfire in the Alberta Boreal mixed wood: what do fires burn? . Ecological Applications , 11 : 97 – 110 .
  • De Grandpre , L. , Morissette , J. and Gauthier , S. 2000 . Long‐term post‐fire changes in the northeastern boreal forest of Quebec. . Journal of Vegetation Science , 11 : 791 – 800 .
  • Diaz‐Delgado , R. and Pons , X. 2001 . Spatial patterns of forest fires in Catalonia (NE of Spain) along the period 1975–1995. Analysis of vegetation recovery after fire. . Forest Ecology and Management , 147 : 67 – 74 .
  • Diaz‐Delgado , R. , Salvador , R. and Pons , X. 1998 . “ Monitoring of plant community regeneration after fire by remote sensing. ” . In Fire Management and Landscape Ecology , Edited by: Trabaud , L . 315 – 324 . Fairfield, WA : International Association of Wildland Fire .
  • Diaz‐Delgado , R. , Lloret , F. and Pons , X. 2003 . Influence of fire severity on plant regeneration by means of remote sensing imagery. . International Journal of Remote Sensing , 24 : 1751 – 1763 .
  • Dyrness , C. T. , Viereck , L. A. and Van Cleve , K. 1986 . “ Fire in taiga communities of interior Alaska. ” . In Forest Ecosystems in the Alaskan Taiga: A synthesis of structure and function , Edited by: Van Cleve , K , Chapin III , F. S , Flanagan , P. W , Viereck , L. A and Dyrness , C. T . 74 – 88 . New York : Springer‐Verlag .
  • ECE/FAO (Economy Commission for Europe/Food and Agricultural Organization of the United Nations) . 1985 . The Forest Resources of the ECE Region (Europe, USSR, North America) ECE/FAO/27, Geneva
  • Environment Canada . 1995 . “ The state of Canada's climate: monitoring change and variability. ” . 52 SOE Report No. 95‐1, Ottawa, Canada
  • Eugster , W. , Rouse , W. R. , Pielke , R. A. Sr. , McFadden , J. P. , Baldocchi , D. D. , Kittel , T. G. F. , Chapin III , F. S. , Liston , G. E. , Vidale , P. L. , Vaganov , E. and Chambers , S. D. 2000 . Land‐atmosphere energy exchange in Arctic tundra and boreal forest: available data and feedbacks to climate. . Global Change Biology , 6 (suppl. 1) : 84 – 115 .
  • Everitt , B. S. 1995 . The analysis of repeated measures: a practical review with examples. . The Statistician , 44 : 113 – 135 .
  • Fiorella , M. and Ripple , W. J. 1993 . Analysis of conifer forest regeneration using Landsat Thematic Mapper data. . Photogrammetric Engineering and Remote Sensing , 59 : 1383 – 1388 .
  • Flannigan , M. D. and Van Wagner , C. E. 1991 . Climate change and wildfire in Canada. . Canadian Journal of Forest Research , 21 : 66 – 72 .
  • Fortin , M. J. , Payette , S. and Marineau , K. 1999 . Spatial vegetation diversity index along a postfire successional gradient in the northern boreal forest. . Ecoscience , 6 : 204 – 213 .
  • Fosberg , M. A. , Goldammer , J. G. , Rind , D. and Price , C. 1990 . “ Global change: effects on forest ecosystems and wildfire severity. ” . In Fire in the Tropical Biota. Ecosystem processes and global challenges , Edited by: Goldammer , J. G . 463 – 486 . Berlin : Springer‐Verlag .
  • FRA (G lobal F orest R esources A ssessment ), 2000, Main report. Available online at http://www.fao.org/forestry/site/fra2000report/en (accessed 18 July 2006).
  • F rench , N.H., K asischke , E.S., J ohnson , R.D., B ourgeau ‐C havez , L.L., F rick , A.L. and U stin , S.L., 1996, Estimating fire‐related carbon flux in Alaskan boreal forests using multi‐sensor remote sensing data. AGU Chapman Conference on Biomass Burning and Climate Change . Available online at http://www.cstars.ucdavis.edu/papers/pdf/frenchetal1996a.pdf (accessed 6 March 2006).
  • Furyaev , V. V. , Vaganov , E. A. , Tchebakova , N. M. and Valendik , E. N. 2001 . Effects of fire and climate on successions and structural changes in the Siberian boreal forest. . Eurasian Journal of Forest Research , 2 : 1 – 15 .
  • George , C. T. , Rowland , C. , Gerard , F. F. and Balzter , H. 2006 . Retrospective mapping of burnt areas in Central Siberia using a modification of the Normalised Difference Water Index. . Remote Sensing of Environment , 104 : 346 – 359 .
  • Gerard , F. , Plummer , S. , Wadsworth , R. , Ferreruela , A. , Iliffe , L. , Balzter , H. and Wyatt , B. 2003 . Forest fire scar detection in the Boreal forest with multitemporal SPOT‐VEGETATION data. . IEEE Transactions on Geoscience and Remote Sensing , 41 : 2575 – 2585 .
  • Goetz , S. J. , Fiske , G. J. and Bunn , A. G. 2006 . Using satellite time‐series data sets to analyze fire disturbance and forest recovery across Canada. . Remote Sensing of Environment , 101 : 352 – 365 .
  • Henry , M. C. and Hope , A. S. 1998 . Monitoring post‐burn recovery of chaparral vegetation in southern California using multi‐temporal satellite data. . International Journal of Remote Sensing , 19 : 3097 – 3107 .
  • Hicke , J. A. , Asner , G. P. , Kasischke , E. S. , French , N. H. F. , Randerson , J. T. , Collatz , G. J. , Stocks , B. J. , Tucker , C. J. , Los , S. O. and Field , C. B. 2003 . Postfire response of North American boreal forest net primary productivity analyzed with satellite observations. . Global Change Biology , 9 : 1145 – 1157 .
  • Jakubauskas , M. E. , Lulla , K. P. and Mausel , P. W. 1990 . Assessment of vegetation change in a fire‐altered forest landscape. . Photogrammetric Engineering and Remote Sensing , 56 : 371 – 377 .
  • Johnstone , J. F. , Chapin III , F. S. , Foote , J. , Kemmet , S. , Price , K. and Viereck , L. 2004 . Decadal observations of the tree regeneration following fire in boreal forests. . Canadian Journal of Forest Research , 34 : 267 – 273 .
  • Jupp , T. E. , Taylor , C. M. , Balzter , H. and George , C. T. 2006 . A statistical model linking Siberian forest fire scars with early summer rainfall anomalies. . Geophysical Research Letters , 33 : L14701 doi:10.1029/2006GL026679
  • Kasischke , E. S. and French , N. H. F. 1997 . Constraints on using AVHRR composite index imagery to study patterns of vegetation cover in boreal forests. . International Journal of Remote Sensing , 18 : 2403 – 2426 .
  • Kasischke , E. S. 2000 . “ Boreal ecosystems in the Global Carbon Cycle. ” . In Fire, Climate Change and Carbon Cycling in the Boreal Forest , Edited by: Kasischke , E. S and Stocks , B. J . 19 – 30 . New York : Springer‐Verlag .
  • Kasischke , E. S. , French , N. H. F. , Harrell , P. , Christensen , N. L. J. , Ustin , S. L. and Barry , D. 1993 . Monitoring of wildfires in boreal forests using large area AVHRR NDVI composite image data. . Remote Sensing of Environment , 45 : 61 – 71 .
  • Knyazikhin , Y. , Martonchik , J. V. , Myneni , R. B. , Diner , D. J. and Running , S. W. 1998 . Synergistic algorithm for estimating vegetation canopy leaf area index and fraction of absorbed photosynthetically active radiation from MODIS and MISR data. . Journal of Geophysical Research , 103 : 32257 – 32275 .
  • K nyazikhin , Y., G lassy , J., P rivette , J.L., T ian , Y., L otsch , A., Z hang , Y., W ang , Y., M orisette , J.T., V otava , P., M yneni , R.B., N emani , R.R. and R unning , S.W., 1999, MODIS Leaf Area Index (LAI) and Fraction of Photosynthetically Active Radiation Absorbed by Vegetation (FPAR) Product (MOD15) Algorithm Theoretical Basis Document. Available online at http://eospso.gsfc.nasa.gov/atbd/modistables.html (accessed 1 July 2004).
  • Larcher , W. 1980 . Physiological Plant Ecology , Berlin : Springer‐Verlag . 2nd edn
  • Lloyd , J. 1999 . The CO2 dependence of photosynthesis, plant growth responses to elevated CO2 concentrations and their interaction with soil nutrient status, II. Temperate and boreal forest productivity and the combined affects of increasing CO2 concentrations and increased nitrogen deposition at a global scale. . Functional Ecology , 13 : 439 – 459 .
  • Loveland , T. R. , Reed , B. C. , Brown , J. F. , Ohlen , D. O. , Zhu , Z. , Yang , L. and Merchant , J. W. 2000 . Development of a global land cover characteristics database and IGBP DISCover from 1 km AVHRR data. . International Journal of Remote Sensing , 21 : 1303 – 1330 .
  • McGuire , A. D. , Chapin III , F. S. , Walsh , J. E. and Wirth , C. 2006 . Integrated regional changes in Arctic climate feedbacks: implications for the global climate system. . Annual Review of Environment and Resources , 31 : 61 – 91 .
  • Marchetti , M. , Ricotta , C. and Volpe , F. 1995 . A qualitative approach to the mapping of post‐fire regrowth in Mediterranean vegetation with Landsat TM data. . International Journal of Remote Sensing , 16 : 2487 – 2494 .
  • Meroni , M. , Mollicone , D. , Belelli , L. , Manca , G. , Rosellini , S. , Stivanello , S. , Tirone , G. , Zompati , R. , Tchebakova , N. , Schulze , E. D. and Valentini , R. 2002 . Carbon and water exchanges of regenerating forests in central Siberia. . Forest Ecology and Management , 169 : 115 – 122 .
  • MOD15_BU product, 2005, Declaration of the bug in Collection 4 MOD15A2 fAPAR product. Climate and Vegetation Research Group, Boston University. Available online at ftp://primavera.bu.edu/pub/datasets/MODIS/readme.pdf (accessed 6 March 2005).
  • Myneni , R. B. , Hoffman , S. , Knyazikhin , Y. , Privette , J. L. , Glassy , J. , Tian , Y. , Wang , Y. , Song , X. , Zhang , Y. , Smith , G. R. , Lotsch , A. , Friedl , M. , Morisette , J. T. , Votava , P. , Nemani , R. R. and Running , S. W. 2002 . Global products of vegetation leaf area and fraction absorbed PAR from year one of MODIS data. . Remote Sensing of Environment , 83 : 214 – 231 .
  • M yneni , R., K nyazikhin , Y., G lassy , J., V otava , P. and S habanov , N., 2003, User's guide FAPAR, LAI (ESDT: MOD15A2) 8‐day Composite. NASA MODIS Land Algorithm. Available online at http://cybele.bu.edu/modismisr/products/modis/userguide.pdf (accessed 1 July 2004).
  • Pastor , J. , Cohen , Y. and Moen , R. 1999 . Generation of spatial patterns in Boreal forest landscapes. . Ecosystems , 2 : 439 – 450 .
  • Payette , S. 1992 . “ Fire as controlling process in the North American boreal forest. ” . In A Systems Analysis of the Global Boreal Forest , Edited by: Shugart , H. H , Leemans , R and Bonan , G. B . 144 – 165 . Cambridge : Cambridge University Press .
  • Peltzer , D. A. , Bast , M. L. , Wilson , S. D. and Gerry , A. K. 2000 . Plant diversity and tree responses following contrasting disturbances in boreal forest. . Forest Ecology and Management , 127 : 191 – 203 .
  • Potter , C. S. , RandersoN , J. T. , Field , C. B. , Matson , P. A. , Vitousek , P. M. , Mooney , H. A. and Klooster , S. A. 1993 . Terrestrial ecosystem production: a process model based on global satellite and surface data. . Global Biogeochemical Cycles , 7 : 811 – 841 .
  • Riaño , D. , Chuvieco , E. , Ustin , S. , Zomer , R. , Dennison , P. , Roberts , D. and Salas , J. 2002 . Assessment of vegetation regeneration after fire through multitemporal analysis of AVIRIS images in the Santa Monica Mountains. . Remote Sensing of Environment , 79 : 60 – 71 .
  • Riaño , D. , Moreno Ruiz , J. A. , Isidoro , D. and Ustin , S. L. 2007 . Spatial and temporal patterns of burned area at global scale between 1981–2000 using NOAA‐NASA Pathfinder. . Global Change Biology , 13 : 40 – 50 .
  • Rojkov , V. A. , Efremov , D. , Nilsson , S. , Sedykh , V. N. , Shvidenko , A. Z. , Sokolov , V. and Wagner , V. B. 1996 . “ Siberian landscape classification and a digitized map of Siberian landscapes. ” . WP‐96‐111. International Institute for Applied Systems Analysis, Laxenburg, Austria
  • Rowe , J. S. and Scotter , G. W. 1973 . Fire in the boreal forest. . Quaternary Research , 3 : 444 – 464 .
  • Schaaf , C. B. , Gao , F. , Strahler , A. H. , Lucht , W. , Li , X. , Tsang , T. , Strugnell , N. C. , Zhang , X. , Jin , Y. , Muller , J. P. , Lewis , P. , Barnsley , M. , Hobson , P. , Disney , M. , Roberts , G. , Dunderdale , M. , Doll , C. , D'Entremont , R. , Hu , B. , Liang , S. and Privette , J. L. 2002 . First operational BRDF, albedo and nadir reflectance products from MODIS. . Remote Sensing of Environment , 83 : 135 – 148 .
  • Schimmel , J. and Granström , A. 1996 . Fire severity and vegetation response in the boreal Swedish forest. . Ecology , 77 : 1436 – 1450 .
  • S chmullius , C. and H ese , S., SIBERIA‐II T eam 2002, SIBERIA‐II: sensor systems and data products for greenhouse gas accounting. Proceedings of 19 DFD Nutzerseminar , Oberpfaffnehofen, Jena, 2002, pp. 173–180, Available online at http://www.caf.dlr.de/caf/aktuelles/veranstaltungen/nutzerseminar/dfd_19/publikationen/papers/schmullius.pdf (accessed 2 May 2007).
  • Schroeder , D. and Perera , A. H. 2002 . A comparison of large‐scale spatial vegetation patterns following clearcuts and fires in Ontario's boreal forests. . Forest Ecology and Management , 159 : 217 – 230 .
  • Schulze , E. D. , LLoyd , J. , Kelliher , F. M. , Wirth , C. , Rebmann , C. , Luhker , B. , Mund , M. , Knohl , A. , Milyukova , I. M. , Schulze , W. , Ziegler , W. , Varlangin , A. B. , Sogachev , A. F. , Valentini , R. , Dore , S. , Grigoriev , S. , Kolle , O. , Panfyorov , M. I. , Tchebakova , N. and Vygodskaya , N. N. 1999 . Productivity of forests in the Eurosiberian boreal region and their potential to act as a carbon sink—a synthesis. . Global Change Biology , 5 : 703 – 722 .
  • Schulze , E. D. , Wirth , C. , Mollicone , D. and Ziegler , W. 2005 . Succession after stand replacing disturbances by fire, wind throw, and insects in the dark Taiga of Central Siberia. . Oecologia , 146 : 77 – 88 .
  • Shvidenko , A. and Nilsson , S. 1994 . What do we know about the Siberian forests? . Ambio , 23 : 396 – 404 .
  • Shvidenko , A. and Nilsson , S. 1999 . “ Phytomass, increment, mortality and carbon budget of Russian forests. ” . Interim Report (IR‐98‐105). International Institute for Applied Systems Analysis, Laxenburg, Austria
  • Skinner , L. and Luckman , A. 2004 . “ Introducing a land cover map of Siberia derived from MERIS and MODIS data. ” . In Proceedings of International Geoscience and Remote Sensing Symposium 223 – 226 . Anchorage, AK, (Anchorage, Alaska: IEEE) 2004
  • Slayback , D. A. , Pinzon , J. E. , Los , S. O. and Tucker , C. J. 2003 . Northern hemisphere photosynthetic trends 1982–99. . Global Change Ecology , 9 : 1 – 15 .
  • Soja , A. J. , Sukhinin , A. I. , Cahoon , J. R. , Shugart , H. H. and Stackhouse Jr , P. W. 2004 . AVHRR‐derived fire frequency, distribution and area burned in Siberia. . International Journal of Biometeorology , 25 : 1939 – 1960 .
  • Song , C. , Woodcock , C. E. and Li , X. 2002 . The spectral/temporal manifestation of forest succession in optical imagery. The potential of multitemporal imagery. . Remote Sensing of Environment , 82 : 285 – 302 .
  • Steyaert , L. T. , Hall , F. G. and Loveland , T. R. 1997 . Land cover mapping, fire regeneration, and scaling studies in the Canadian boreal forest with 1 km AVHRR and Landsat TM data. . Journal of Geophysical Research – Atmospheres , 102 : 29581 – 29598 .
  • Stocks , B. J. and Street , R. B. 1983 . “ Forest fire weather and wildfire occurrence in the boreal forest of northwestern Ontario. ” . In Resources and Dynamics of the Boreal Zone , Edited by: Wein , R. W , Riewe , R. R and Methven , I. R . 249 – 265 . Ottawa : Association of Canadian Universities Northern Studies .
  • Stocks , B. J. , Fosberg , M. A. , Lynham , T. J. , Mearns , L. , Wotton , B. M. , Yang , Q. , Jin , J‐Z. , Lawrence , K. , Hartley , G. R. , Mason , J. A. and McKenney , D. W. 1998 . Climate change and forest fire potential in Russian and Canadian boreal forests. . Climatic Change , 38 : 1 – 13 .
  • Tian , Y. , Dickinson , E. , Zhou , L. , Zeng , X. , Dai , Y. , Myneni , R. B. , Knyazikhin , Y. , Zhang , X. , Friedl , M. , Wu , W. and Shaikh , M. 2004 . Comparison of seasonal and spatial variations of leaf area index and fraction of absorbed photosynthetically active radiation from Moderate Resolution Imaging Spectroradiometer (MODIS) and Common Land Model. . Journal of Geophysical Research , 109 (D01103), doi:10.1029/2003JD003777
  • Ustin , S. L. and Xiao , Q. F. 2001 . Mapping successional boreal forest in interior central Alaska. . International Journal of Remote Sensing , 22 : 1779 – 1797 .
  • Valentini , R. , Dore , S. , Marchi , G. , Mollicone , D. , Panfyorov , M. , Rebmann , C. , Kolle , O. and Schulze , E. D. 2000 . Carbon and water exchanges of two contrasting central Siberia landscape types: regenerating forest and bog. . Functional Ecology , 14 : 87 – 96 .
  • Van Wagner , C. E. 1983 . “ Fire behaviour in northern conifer forests and shrublands. ” . In The Role of Fire in Northern Circumpolar Ecosystems , Edited by: Wein , R. W and MacLean , D. A . 65 – 80 . New York : Wiley .
  • Viedma , O. , Melia , J. , Segarra , D. and Garcia‐Haro , J. 1997 . Modelling rates of ecosystem recovery after fires using Landsat TM data. . Remote Sensing of Environment , 61 : 383 – 398 .
  • Vine , P. and Puech , C. 1999 . Cartography of post‐fire forest regeneration by coupling a spectral mixture model with a vegetation regrowth model. . Canadian Journal of Remote Sensing , 25 : 152 – 159 .
  • Wirth , C. 2005 . Fire regime and tree diversity in Boreal forests: implications for the carbon cycle. . Ecological Studies , 176 : 309 – 344 .
  • Wotton , B. M. and Flannigan , M. D. 1993 . Length of the fire season in a changing climate. . Forestry Chronicle , 69 : 187 – 192 .
  • Xiao , J. and Moody , A. 2004 . Trends in vegetation activity and their climatic correlates: China 1982 to 1998. . International Journal of Remote Sensing , 25 : 5669 – 5689 .

Reprints and Corporate Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

To request a reprint or corporate permissions for this article, please click on the relevant link below:

Order Reprints Request Corporate Permissions

Academic Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

Obtain permissions instantly via Rightslink by clicking on the button below:

Request Academic Permissions

If you are unable to obtain permissions via Rightslink, please complete and submit this Permissions form. For more information, please visit our Permissions help page.

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.