IDENTIFICATION OF HIGH CONSERVATION VALUE FOREST (HCVF)
IN NATURAL PRODUCTION FOREST
TO SUPPORT IMPLEMENTATION OF SFM CERTIFICATION IN INDONESIA
USING REMOTE SENSING AND GIS
Y. B. Sulistioadi Y. A. Hussin A. Sharifi
Department of Natural Resources, The International Institute for Geoinformation Science
and Earth Observation (ITC), Hengelosstraat 99, 7500 AA,
Enschede, Netherlands, Fax: (31)53-4874-388, Sulistioadi@itc.nl, Hussin@itc.nl, Alisharifi@itc.nl
PS WG VII/2:
KEY WORDS: Forest Certification, HCVF, Tropical Forests, Indonesia, Remote Sensing, GIS
ABSTRACT:
Indonesian forests are in critical situation. Very high rate of forest degradation resulted from unsustainable forest management,
rampant illegal logging, forest area encroachment, conversion and natural disaster, i.e. fire, all together urges rapid improvement of
management system of Indonesia’s forest resources. Forest certification is one tool that can support the achievement of sustainable
forest management goal. Under current operation of Joint Certification Protocol between FSC and LEI in Indonesia, forest
management units must be able to show the required (process and) performance indicated in LEI Criteria and Indicators as well as
FSC Principles and Criteria to attain certification of their products. Nevertheless, the gap between current practices and performance
required by forest certification schemes is still enormous. The management of High Conservation Value Forest is one of FSC
principles for sustainable forest management. However, some difficulties were found when forest management unit tries to identify
the HCVF, since the definition, terms and available guideline for HCVF identification are necessarily generic and global. Therefore,
this study tries to implement a detailed method for identification of High Conservation Value Forest (HCVF) in a natural production
forest using remote sensing and GIS.
1. INTRODUCTION
Indonesia is in the third rank of countries with largest tropical
rain forest area in the world, after Brazil and Congo. Varies
from mangrove, swamp and riparian forest to hilly dipterocarp
forest, Indonesia's forest serves as host for unique composition
of biodiversity. As the direct effect from over utilization of
forest resources, fire disaster and forest area conversion,
Indonesia is now facing very high rate of deforestation.
Considering the high rate of environmental damage as well as
social impact caused by large-scale commercial forest
utilization, the paradigm of forest management had been shifted
from sustainable yield oriented to sustainable resources
oriented. In simple words, forest management operations should
be able to maintain the condition and function of forest as it is,
moreover, forest should be maintained so that its social
functions kept intact. In spite of that restriction, forest
management should also be able to produce sustainable timber
products to gain sufficient economic benefits. These three
aspects, ie. environmentally sound, socially accepted and
economically feasible; then establish the pillars of Sustainable
Forest Management.
As committed in Agenda 21 in UN Conference on Environment
and Development (UN-CED) Summit in Rio de Janeiro 1992, a
number of international and regional initiatives has been started
to develop a set of standard to be complied by forest
management operations. From this point then the issue of forest
certification emerged, while some certification scheme also
established in international and national level. The idea behind
forest certification is that consumers, with concern to
deforestation and forest degradation, will prefer to buy timber
products from well-managed forests.
FSC (Forest Stewardship Council) is a council established by a
group of timber users, traders, and representatives of NGOs and
formally launched at October 1993. One year after its assembly,
FSC released a definitive set of Principles and Criteria, which
will be used for assessment of sustainable forest management
operations.
One FSC principle is the management of High Conservation
Value Forest (HCVF). This is relatively new principle, which
has been developed to replace the previously used concept of
old growth or virgin forest. Therefore, the identified HCVF has
large consequences for management options and should be
taken into consideration in establishment of forest management
plan. Further, meeting the conservation requirements of FSC
certification scheme requires full integration of HCVF and
conservation strategies into overall management plans and field
operations.
Since HCVF is a spatial phenomenon, spatial information is
very useful to support the process of HCVF identification. The
use of remote sensing and GIS to support this field of study is
definitely potential. Since the initial step in the identification of
different landscapes and forest types occur in the study area,
and at the later stage, the resulted landscape and forest type map
can be analysed with the existing spatial data to assess the
spatial distribution, status and threats to identified HCVF. At
the end, the forest management unit shall establish a spatial
conservation strategy according to findings in HCVF
identification and later on integrate it with existing forest
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