Investigation of the invasive woody increment using landsat imagery

Authors

  • Gábor Bakó Szent István University, Institute of Botany and Ecophysiology,H-2100, Gödöllő, Páter K. u. 1., Hungary
  • Györk Fülöp Developing Geoinformatician, GeoData Services Ltd., H-1088, Budapest Szentkirályi Street 8, Budapest, Hungary

DOI:

https://doi.org/10.56617/tl.3667

Keywords:

woody invasive plants, remote sensing, growth mapping, biomass monitoring, satellite imagery

Abstract

To detect the woody invasives the aerial surveys proved to be the fastest and the most efficient solution, as the resolution of satellite images does not always allow the vegetation mapping at the species level. We have developed a cost-effective method by using free satellite images and softwares, which detects the rapidly developing woody increment appearing in larger than 3600 m2 areas. The method is primarily sensitive to the active plant biomass increment, so it poorly reveals the woody vegetation present in the work area a long time ago. It is especially sensitive for the fast-growing and newly appeared shrub and tree landcover of the given year.

Author Biographies

  • Gábor Bakó, Szent István University, Institute of Botany and Ecophysiology,H-2100, Gödöllő, Páter K. u. 1., Hungary

    bakogabor@interspect.hu

  • Györk Fülöp, Developing Geoinformatician, GeoData Services Ltd., H-1088, Budapest Szentkirályi Street 8, Budapest, Hungary

    geoadat@geoadat.hu

References

ASNER, G.P. ÉS VITOUSEK P.M. 2012: Remote analysis of biological invasion and biogeochemical change. PNAS. 2005, 102 (12): 4383–4386. https://doi.org/10.1073/pnas.0500823102

BAKÓ G. 2013: Növényi invázió a Balatonnál Élet és Tudomány LXVIII. 2013/35. 1104-1106. p [Plant invasion at Lake Balaton Life and Science 68 (35): 1104–1106.

CZIMBER K. (2001): Geoinformatika - elektronikus jegyzet, III.7.3. Radiometriai korrekció, Sopron

CSATÓ É. (2000): Műholdadatok térképészeti alkalmazása, Doktori értekezés, Eötvös Loránd Tudományegyetem Természettudományi Kar

EUROPEAN COMMISSION 2008: Commission presents policy options for EU strategy on invasive species, Brussels: 5 December 2008. 20 pp. European Commission - IP/08/1890.

EUROPEAN COMMISSION 2009: Renewables Directive – Brussels: 2009/28/EC, 23 April 2009

FEKETE I., LÁSZLÓ I., CSORNAI G., GIACHETTA R. 2011: Távérzékelt felvételek elemzése Budapest, 2011 TÁMOP-4.1.2.A/1-11/1-2011-0052

JOSHUA G. 2009: The Elusive Green Economy. The Atlantic Yuli/August 2009 http://www.theatlantic.com

KERN A. 2011: Production of remotely sensed vegetation index data from MODIS and AVHRR, Dissertation Eötvös Loránd University, Budapest: 2011

RENEWABLES DIRECTIVE 2009: EUropean Parliament & Council, Renewables Directive 2009/28/EC, L140, 5 June 2009, pp. 16–62

ROUSE J.W., HAAS R.H., SCHELL J. A., DEERING D.W. 1973: Monitoring the vernal advancement and retrogradation (greenwave effect) of natural vegetation. Prog. Rep. RSC 1978-1, Remote Sensing Center, Texas A&M Univ., College Station, 93p. (NTIS No. E73-106393)

WISEMAN J., EDWARDS T. LUCKINS K. 2013: Post carbon pathways Melbourne Sustainable Society Institute, University of Melbourne CPD Discussion Paper Melbourne: April 2013 p. 21.

Published

2015-07-19

Issue

Section

Articles

How to Cite

Investigation of the invasive woody increment using landsat imagery. (2015). JOURNAL OF LANDSCAPE ECOLOGY | TÁJÖKOLÓGIAI LAPOK , 13(1), 149-162. https://doi.org/10.56617/tl.3667

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