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RESEARCH ARTICLE
Contents Vol 16(5)

The spatial and temporal distribution of fires on Sakhalin Island, Russia

V. I. Kharuk A , E. S. Kasischke B D and O. E. Yakubailik C
+ Author Affiliations
- Author Affiliations

A Institute of Forestry, Siberian Branch of the Russian Academy of Sciences, Krasnoyarsk, Russia.

B University of Maryland, Department of Geography, 2181 Lefrak Hall, College Park, MD 20742, USA.

C Institute of Computer Modeling, Siberian Branch of the Russian Academy of Sciences, Krasnoyarsk, Russia.

D Corresponding author. Email: ekasisch@geog.umd.edu

International Journal of Wildland Fire 16(5) 556-562 https://doi.org/10.1071/WF05009
Submitted: 15 January 2005  Accepted: 19 May 2007   Published: 26 October 2007

Abstract

In the 1990s, catastrophic fires affected ~8 million ha of forest lands in the Russian Far East, including forests of Sakhalin Island. A study that correlated the spatial distribution of burned area and topographic features (elevation, slope, aspect) was carried out for Sakhalin Island. Burned area information derived from forest inventory maps (1935 to 1990) and satellite imagery (1998) was digitised and entered into a Geographic Information System. The burned area locations were correlated with topographic information; the normalisation procedure allows for analysis of the dependence of the fire scars on landscape features. The analyses show that fires occur primarily on the eastern, south- and north-eastern facing areas; >90% of fires occur at elevations lower than 300 m, and >95% occur on slopes <10 degrees. For the period 1935 to 1998, ~54% of the Sakhalin Island forest land territory was burned. From the total area of fire scars, formed from 1935 to 1998, 90.5% occurred owing to single fires, 8.6% of fire scars were the result of burning by two fires, 0.9% of fire scars were from three fires, and 0.03% from four fires. A fire return interval for the study region is ~120 years.

Additional keywords: boreal forest, historical data.


References


Gromov OO , Marchenko EN (2002) ‘Methodical Requirements for the Creation of Digital Graphic Models of the Territories (DGMT) for the Purpose of Managing State Land Survey.’ [in Russian] (Zemlia, Krasnoyarsk, Russia)

Ivlev AM (1965) ‘The Soils of the Sakhalin Island.’ [in Russian] (Nauka: Moscow)

Kasischke ES, Williams D , Barry D (2002) Analysis of the patterns of large fires in the boreal forest region of Alaska. International Journal of Wildland Fire  11, 131–144.
Crossref | GoogleScholarGoogle Scholar | Klintsov AP (1973) ‘The Protection Role of Sakhalin Forests.’ [in Russian] (Dalnevostochnoye Publishing House: Yuzhnosakhalinsk, Russia)

Newell J , Wilson E (1996) ‘The Russian Far East: Forests, Biodiversity Hotspots, and Industrial Developments.’ (Friends of the Earth-Japan: Tokyo)

OST-68 (1998) ‘Digital Topographic Maps.’ Requirements to the Quality of Digital Topographic Maps. [in Russian] (Gosgiscenter: Moscow)

Richter R (Ed.) (1961) ‘Russian Far East.’ (RAS Publishing House: Moscow)

Sabirov RN (1999) Anthropogenic transformation of the Sakhalin Island forests. In ‘Forests and Forest Formation in the Russian Far East’. [in Russian] pp. 155–156. (RAS Publishing House: Vladivostok, Russia)

Stocks BJ, Mason JA, Todd JB, Bosch EM, Wotton BM, Amiro BD, Flannigan MD, Hirsch KG, Logan KA, Martell DL , Skinner WR (2002) Large forest fires in Canada, 1959–1997. Journal of Geophysical Research  107, 8149–[printed 108(D1), 2003].
Crossref | GoogleScholarGoogle Scholar | Tolmachev AI (1955) ‘Geobotanic Regions of the Sakhalin Island.’ [in Russian] (Russian Academy of Sciences Publishing House: Leningrad, Moscow)

Zamai SS , Yakubailik OE (1998) ‘Software and Technologies for GIS.’ [in Russian] (Nauka, Novosibirsk)

Zhukov A (Ed.) (1969) ‘Forests of USSR. Vol. IV.’ [in Russian] (Nauka, Moscow)