BOREAS SASKATCHEWAN FOREST FIRE CONTROL CENTRE SURFACE METEOROLOGICAL DATA

O conhecimento do perfil dos incêndios florestais é muito importante para o planejamento do controle dos mesmos. O objetivo deste trabalho foi estabelecer o perfil dos incêndios florestais no país através de dados coletados, em áreas protegidas, no período de 1994 a 1997, através de formulários preenchidos por empresas e instituições florestais. Foram registrados e informados 1.957 incêndios e apesar deste número não representar a totalidade dos incêndios ocorridos no período estudado, constituiu-se numa base confiável para se conhecer as principais características dos incêndios. Os resultados mostraram que a área média atingida por incêndio no período analisado foi de aproximadamente 135 ha, sendo Minas Gerais o estado líder, tanto em número de incêndios informados (62,7% do total) como em área queimada (25,2%). O grupo Incendiários foi a principal causa dos incêndios, com 56,6% das ocorrências, vindo a seguir as Queimas para limpeza com 22,1%. Com relação à área queimada o grupo Queimas para limpeza , com 74,1% da superfície atingida, foi a principal causa, ficando o grupo Incendiários em segundo lugar com 19,8%. A principal estação de incêndios no país se estende de julho a novembro, quando ocorreram 79,2% dos incêndios, correspondendo a 98,6% da área atingida. O maior número de incêndios (39,7% das ocorrências) foi registrado em Outro tipo de vegetação, que inclui cerrado, capoeira e campo. Com relação à área atingida, entretanto, 92,5% foi registrada em Florestas Nativas. Quanto à distribuição dos incêndios através das classes de tamanho, 23,9% foi enquadrado na classe I ( 0,1 ha). É importante ressaltar que quanto maior a eficiência no combate aos incêndios, maior é a concentração dos mesmos na classe I. Apesar de corresponder a apenas 2,4% das ocorrências, os incêndios da classe V ( 200,0 ha) foram responsáveis por 94,5% da área queimada. FOREST FIRE STATISTICS IN BRAZIL FROM 1994 TO 1997 Abstract Forest fire statistics knowledge is an important tool for fire control planning. The objective of this research was to collect information on forest fire occurrence in Brazilian protected areas in the period of 1994 to 1997. The analyzed variables were the number of fires and burned areas per state of the federation, monthly distribution, probable causes, affected vegetation, size class distribution, and average burned area per fire. Results showed that the average burned area per fire was approximately 135 ha and Minas Gerais ranked first, both in number of registered fires (62.7%) and burned surface (25.2%). Incendiary, with 56.6% of the occurrences was the leading cause, followed by debris burning with 22.1%. However, as for the affected area, Debris burning was the leading cause (74.1%), followed by Incendiary (19.8%). The fire season extends from July to November, when 79.2% of the fires occurred, corresponding to 98.6% of the burned surface. Miscellaneous, that includes savanna, secondary growth forest, and grassland were the most affected vegetation type (39.7% of the occurrences). In relation to the burned surface, Native Forest (92.5%) ranked first. The distribution of the registered fires through the size classes presented 23.9% of the occurrences in Class I ( 0.1 ha), whereas 94.5% of the burned area were result of Class V ( 200 ha) fires. Size Class II (0.1 to 4.0 ha), with 49.1% of the occurrences, ranked first in number of registered fires during the analyzed period.

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PERSEPSI MASYARAKAT DALAM UPAYA PENGENDALIAN KEBAKARAN HUTAN DI TAMAN NASIONAL GUNUNG CIREMAI Community Role to the Forest Fire Control in Mount Ciremai National Park

Journal of Tropical Silviculture ◽

10.29244/j-siltrop.8.2.141-146 ◽

2017 ◽

Vol 8 (2) ◽

pp. 141-146

Author(s):

Bambang Hero Saharjo ◽

Guntala Wibisana

Keyword(s):

National Parks ◽

Forest Fire ◽

Forest Fires ◽

National Park ◽

Human Factor ◽

Negative Impact ◽

Primary Data ◽

Fire Control ◽

Questionnaire Research

Forest fires cause losses and negative impact. Forest fire in mountain Ciremai national park caused by human factor. Efforts to control forest fires currently preferred by involving the community. This research is done using primary data and information obtained from filling the questionnaire. Research is taking samples from three villages namely Cibuntu village, Padabeunghar villages, and Kaduela village. Respondents were interviewed 90 respondents. Based on researches known that the area around the national park had high perception of Ciremai national existance. They argue that the mountain Ciremai national parks useful in life and the management of mountain Ciremai national parks better. Based on the scoring of 90 respondents 70 of them have a highperception of the forest fire control in mountain Ciremai national park, it means that most of people have participated in efforts to control forest fire.Key words: Forest fire,community role, forest fire control

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River Flows are a Reliable Index of Forest Fire Risk in the Temperate Tasmanian Wilderness World Heritage Area, Australia

10.20944/preprints202103.0173.v1 ◽

2021 ◽

Author(s):

David MJS Bowman ◽

Grant J Williamson

Keyword(s):

Forest Fire ◽

River Flow ◽

Meteorological Data ◽

Fire Risk ◽

World Heritage ◽

Fire Season ◽

River Flows ◽

World Heritage Area ◽

Heritage Area ◽

Forest Fire Risk

Fire risk can be defined as the probability that a fire will spread. Reliable monitoring of fire risk is essential for effective landscape management. Compilation of fire risk records enable identification of seasonal and inter-annual patterns and provide a baseline to evaluate the trajectories in response to climate change. Typically, fire risk is estimated from meteorological data. In regions with sparse meteorological station coverage environmental proxies provide important additional data stream for estimating past and current fire risk. Here we use a 60-year record of daily flows from two rivers (Franklin and Davey) in the remote Tasmanian Wilderness World Heritage Area (TWWHA) to characterize seasonal patterns in fire risk in temperate Eucalyptus and rainforests. We show that river flows are strongly related to landscape soil moisture estimates derived from down-scaled re-analysis of meteorological data available since 1990. To identify river flow thresholds where forests are likely to burn, we relate river flows to known forest fires that have occurred in the previously defined ecohydrological domains that surround the Franklin and Davey catchments. Our analysis shows that the fire season in the TWWHA is centered on February (70% of all years below the median threshold), with shoulders on December-January and March. Since 1954 forest fire can occur in at least one month for all but four summers in the ecohydrological domain that includes the Franklin catchment, and since 1964 fire fires could occur in at least one month in every summer in the ecohydrological domain that includes the Davey catchment. Our analysis shows that mangers can use river flows as a simple index that provide a landscape-scale forest fire risk in the TWWHA.

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Basing Airtankers for Forest Fire Control in Ontario

Operations Research ◽

10.1287/opre.44.5.677 ◽

1996 ◽

Vol 44 (5) ◽

pp. 677-686 ◽

Cited By ~ 26

Author(s):

James I. MacLellan ◽

David L. Martell

Keyword(s):

Forest Fire ◽

Fire Control

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Forest Fire Control by Means of Ground Equipment

Forest Fire Prevention and Control - Forestry Sciences ◽

10.1007/978-94-017-1574-4_12 ◽

1982 ◽

pp. 127-134

Author(s):

R. Szczygiel

Keyword(s):

Forest Fire ◽

Fire Control

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Soviet Progress in Forest Fire Control, 1964

The Forestry Chronicle ◽

10.5558/tfc41366b1-3 ◽

1965 ◽

Vol 41 (3) ◽

pp. 366-366

Keyword(s):

Forest Fire ◽

Fire Control

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Forest fire risk mapping using analytical hierarchy process (AHP) and earth observation datasets: a case study in the mountainous terrain of Northeast India

SN Applied Sciences ◽

10.1007/s42452-021-04391-0 ◽

2021 ◽

Vol 3 (4) ◽

Author(s):

Ridalin Lamat ◽

Mukesh Kumar ◽

Arnab Kundu ◽

Deepak Lal

Keyword(s):

High Risk ◽

Forest Fire ◽

Analytical Hierarchy Process ◽

Fire Risk ◽

Control Measures ◽

Fire Control ◽

Risk Zones ◽

Hierarchy Process ◽

Forest Fire Risk ◽

Very High

AbstractThis study presents a geospatial approach in conjunction with a multi-criteria decision-making (MCDM) tool for mapping forest fire risk zones in the district of Ri-Bhoi, Meghalaya, India which is very rich in biodiversity. Analytical hierarchy process (AHP)-based pair-wise comparison matrix was constructed to compare the selected parameters against each other based on their impact/influence (equal, moderate, strong, very strong, and extremely strong) on a forest fire. The final output delineated fire risk zones in the study area in four categories that include very high-risk, high-risk, moderate-risk, and low-risk zones. The delineated fire risk zones were found to be in close agreement with actual fire points obtained from Moderate Resolution Imaging Spectroradiometer (MODIS) fire data for the study area. Results indicated that Ri-Bhoi’s 804.31 sq. km. (32.86%) the area was under ‘very high’ fire susceptibility. This was followed by 583.10 sq. km. (23.82%), 670.47 sq. km. (27.39%), and 390.12 sq. km. (15.93%) the area under high, moderate, and low fire risk categories, respectively. These results can be used effectively to plan fire control measures in advance and the methodology suggested in this study can be adopted in other areas too for delineating potential fire risk zones.

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Decision-Making for Centralized Forest Fire Management

The Forestry Chronicle ◽

10.5558/tfc60320-6 ◽

1984 ◽

Vol 60 (6) ◽

pp. 320-327 ◽

Cited By ~ 6

Author(s):

Peter Kourtz

Keyword(s):

Decision Making ◽

Forest Fire ◽

Fire Management ◽

Attractive Alternative ◽

Fire Control ◽

Fire Loss ◽

Forest Fire Management ◽

The Status ◽

Computerized System ◽

Centralized System

Pressures brought about by severe fire loss, increasing fire control costs, and restricted budgets are causing some Canadian forest fire control agencies to consider new ways to improve efficiency. One attractive alternative, currently being pursued by several provinces, is the restructuring of their three-level, decentralized organizations to a provincial-regional, centralized fire management unit.Under a centralized system relatively few people manage the necessary resources to handle a fire situation for a huge area. To attain this capability, they require the support of a computerized system designed to collect and process information on weather, fire occurence and behaviour, and the status of detection and suppression resources.Such a system has been developed and is undergoing operational trials at the centralized fire centres of both the Société de Conservation de l'Outaouais at Maniwaki. Quebec and the Ontario Ministry of Natural Resources at Timmins.

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