Abstract
Characterizing, modeling, and monitoring the distribution and condition of the Earth’s biodiversity and ecosystems has a long history of being aided by Earth Observation data and the models and derivative products that they support. At the global scale, there need to be more coordinated efforts to acquire, process, analyze, and make available these observation data across all disciplines, particularly since many applications use the same primary and derived data. Towards that end, the Group on Earth Observations (GEO) is implementing the Global Earth Observing System of Systems. The purpose of this article is to provide information on GEO’s goals and activities relevant to biodiversity and ecosystems. The article also describes the data that would best serve as a year 2010 baseline in order to support the objectives of the Convention on Biological Diversity (CBD) as well as many other international agreements, programs, and activities. Indeed, an assessment of existing biodiversity observations with a concomitant recognition of the remaining gaps will promote the establishment of an integrated framework for biodiversity observations in support of the CBD’s efforts.
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References
Achard F, Eva HD, Stibig H-J, Mayaux P, Gallego J, Richards T, Malingreau J-P (2002) Determination of deforestation rates of the world’s humid tropical forests. Science 297(5583):999–1002
Andréfouët S, Costello MJ, Faith DP, Ferrier S, Geller GN, Höft R, Jürgens N, Lane MA, Larigauderie A, Mace G, Miazza S, Muchoney D, Parr T, Pereira HM, Sayre R, Scholes RJ, Stiassny MLJ, Turner W, Walther BA, Yahara T (2008a) The GEO biodiversity observation network: concept document. GEO, Group on Earth Observations, Geneva, Switzerland, 173 pp. http://www.earthobservations.org/documents/cop/bi_geobon/200811_geobon_concept_document.pdf
Andréfouët S, Costello MJ, Rast M, Sathyendranath S (2008b) Earth observations for marine and coastal biodiversity and ecosystems. Remote Sens Environ 112(8):3297–3299
Defries R, Hansen M, Townshend J, Janetos A, Loveland TR (2000) A global 1 km data set of percent tree cover data derived from remote sensing. Glob Change Biol 6:247–254
Di Gregorio A, Jansen LJM (1998) Land cover classification system (LCCS): classification concepts and user manual. Environment and Natural Resources Service, GCP/RAF/287/ITA Africover—East Africa Project and Soil Resources, Management and Conservation Service. FAO, Rome, 157 pp
Easterling DR, Peterson TC, Karl TR (1996) On the development and use of homogenized climate datasets. J Clim 9(6):1429–1434
Gould W (2000) Remote sensing of vegetation, plant species richness, and regional biodiversity hotspots. Ecol Appl 10(6):1861–1870
Group on Earth Observations Biodiversity Observation Network (GEO BON) Detailed implementation PlanVersion 1.0, 22 May 2010. http://www.earthobservations.org/documents/cop/bi_geobon/geobon_detailed_imp_plan.pdf
Hall A, Forrest G, Collatz G, Los S, Brown de Colstoun E, Landis D (eds) (2005) ISLSCP initiative II. NASA. DVD/CD-ROM. NASA
Hansen MC, DeFries RS, Townshend JRG, Carroll M, Dimiceli C, Sohlberg RA (2003) Global percent tree cover at a spatial resolution of 500 meters: first results of the MODIS vegetation continuous fields algorithm
Herold M, Woodcock CE, Loveland TR, Townshend J, Brady M, Steenmans C, Schmullius CC (2008) Land cover observations as part of a Global Earth Observation System of Systems (GEOSS): progress, activities, and prospects. IEEE Syst J 2(3):414–423
Intergovernmental Panel on Climate Change (IPCC) (1997) Revised 1996 IPCC guidelines for national greenhouse gas inventories. In: Houghton JT, Meira Filho LG, Lim B, Tréanton K, Mamaty I, Bonduki Y, Griggs DJ, Callander BA (eds) Greenhouse gas inventory reporting instructions, vol 1, 130 pp. Greenhouse gas inventory workbook, vol 2. 346 pp. Greenhouse gas inventory reference manual, vol 3, 482 pp. IPCC, Meteorological Office, Bracknell, UK. http://www.ipcc-nggip.iges.or.jp/public/gl/invs4.htm
Iwao K, Nishida K, Kinoshita T, Yamagata Y (2006) Validating land cover maps with Degree Confluence Project information. Geophys Res Lett 33:L23404
Loveland TR, Belward AS (1997a) The IGBP-DIS global 1 km land cover data set, DISCover first results. Int J Remote Sens 18(5):3289–3295
Loveland TR, Belward AS (1997b) The International Geosphere Biosphere Programme Data and Information System global land cover data set (DISCover). Acta Astronaut 41(4–10):681–689
Loveland TR, Merchant JW, Brown JF, Ohlen DO, Reed BC, Olson P, Hutchinson J (1995) Seasonal land-cover of the United States. Ann Assoc Am Geogr 85:339–355
Loveland TR, Reed BC, Brown JF, Ohlen DO, Zhu J, Yang L, Merchant JW (2000) Development of a global land cover characteristics database and IGBP DISCover from 1-km AVHRR data. Int J Remote Sens 21(6/7):1303–1330
Lund G (2006) Guide for classifying lands for greenhouse gas inventories. J For 104:211–216
Muchoney DM (2008) Earth observations for terrestrial biodiversity and ecosystems. Remote Sens Environ 112(5):109–111
Muchoney DM, Strahler AH (2002a) Regional vegetation mapping and direct land surface parameterization from remotely sensed and site data. Int J Remote Sens 23(6):1125–1142
Muchoney DM, Strahler AH (2002b) Pixel and site-based calibration and validation methods for evaluating supervised classification of remotely sensed data. Remote Sens Environ 81:1–10
Muchoney DM, Borak J, Chi H, Friedl M, Hodges J, Morrow N, Strahler A (2000) Application of the MODIS global supervised classification model to vegetation and land cover mapping of Central America. Int J Remote Sens 21(6):1115–1138
Nagendra H (2001) Using remote sensing to assess biodiversity. Int J Remote Sens 22(12):2377–2400
Nativi S, Mazzetti P, Saarenmaab H, Kerr J, Tuama ÉÓ (2009) Biodiversity and climate change use scenarios framework for the GEOSS interoperability pilot process. Ecol Inform 4(1):23–33
Pereira HM, Cooper HD (2006) Towards the global monitoring of biodiversity change. Trends Ecol Evol 21(3):123–129
Reed BD, Brown JF, VanderZee D, Loveland TR, Merchant JW, Ohlen DO (1994) Measuring phenological variability from satellite imagery. J Veg Sci 5:703–714
Scholes RJ, Mace GM, Turner W, Geller GN, Jürgens N, Larigauderie A, Muchoney D, Walther BA, Mooney HA (2008) Towards a global biodiversity observing system. Sci Policy Forum 321(5892):1044–1045
Stoms DM, Estes JE (1993) A remote sensing research agenda for mapping and monitoring biodiversity. Int J Remote Sens 14:1839–1860
Strand H, Höft R, Strittholt J, Miles L, Horning N, Fosnight E, Turner W (eds) (2007) Sourcebook on remote sensing and biodiversity indicators. Secretariat of the Convention on Biological Diversity, Montreal, Technical Series no. 32, 203 pp
Townshend JRG, Justice CO (1988) Selecting the spatial resolution of satellite sensors required for global monitoring of land transformations. Int J Remote Sens 9(2):187–236
Turner W, Spector S, Gardiner N, Fladeland M, Sterling E, Steininger M (2003) Remote sensing for biodiversity science and conservation. Trends Ecol Evol 18(6):306–314
Acknowledgments
The authors wish to acknowledge the contributions and reviews of Koki Iwao, Woody Turner, Robert Scholes, and Robert Hoft.
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Muchoney, D.M., Williams, M. Building a 2010 biodiversity conservation data baseline: contributions of the Group on Earth Observations. Ecol Res 25, 937–946 (2010). https://doi.org/10.1007/s11284-010-0756-5
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DOI: https://doi.org/10.1007/s11284-010-0756-5