Assessment
of the vulnerability and adaptation to climate change in the Lebanon: Impact on
natural areas and wildlife in Lebanon.
This study represents a part of a general study conducted to
assess the vulnerability of various Lebanese sectors to the projected global
climate changes and the adaptations to the impacts. These sectors include,
water resources, marine and coastal resources, agricultural sectors, natural
areas, protected areas and wildlife and the overall socioeconomic impacts. The
team to conduct this assessment, lead by Dr. M. Khawli, Director of the
Lebanese Remote Sensing Center, was assigned by the Lebanese Council for
Scientific Research, funded by the UNDP and supervised by the Ministry of the
Environment. A colleague, Dr. Samir Safi, and myself concentrated on the
aspects summarized below.
TERRESTRIAL
ECOSYSTEMS, NATURAL HABITATS AND WILDLIFE
SUMMARY
CLIMATE CHANGE VULNERABILITY
IMPACT ASSESSEMENT:
The main baseline disturbances that are currently affecting
natural habitats are:
a.
Chaotic urbanization at the expense of forests and
woodlands.
b. Pollution
of various sources, air, water and soil.
c.
Fires that seem to be increasing in frequency with the
lengthening of the dry season.
d. Changes
in the water table due to excessive water exploitation for domestic and
agricultural use.
e.
Quarrying activity which is also affecting the water table.
f.
Overgrazing.
g. Fragmentation
by one or more of the above factors.
Any
intensive or extensive increase in any of these factors will lead to a
degradation of the natural habitats that will be further exasperated by
climatic changes.
1.
The expected changes in the distribution of vegetation
communities may lead to the disappearance of certain vegetation associations
and their replacement by others. For example, a forest may regress into a
shrubland or even grassland depending on the intensity of the modification.
Two
forests in protected areas, namely Horj Ehden in the North and Arz Al-Shouf in
the Barouk Mountain are characterized by great floral diversity of herbaceous
and arborescent plants containing many endemic, rare and endangered species
some of which are at the southernmost edge of their distribution. Climatic
factors are not the only factors that may affect the success of cedars but
there is a clear preference for humid atmospheres and moist well-drained soil.
According to the
climatic scenario used here, there may be a 300m upward shift in the year
2020, 486m in 2050 and more than 700
meters in the year 2080. This would push the tree line in the year 2080 in both
reserves to around 2500m. Considerable stress will begin to be felt as early as
the year 2020. This makes both protected areas highly vulnerable. Furthermore,
the rate of change may be faster than the species ability to adapt. Montane
vegetation as found in the two above-mentioned reserves may face considerable
threat of serious decline and even disappearance.
Other factors, however, such as the increased water efficiency due to CO2
increase may enhance its ability to withstand the new drought conditions. It is
also uncertain to what extent and how soon there may be a change in soil
characteristics affecting the vegetation.
In the main wetland area in Lebanon, the Ammiq ephemeral marshes
intensive water pumping for the irrigation of several cultivated lands in the
surrounding areas has reduced the area and shortened its seasonal span. It is
expected that, in the absence of climate change and due to the lack of
management plans, these marshes will be affected by:
Change in land use in the surrounding areas, where more land will be
reclaimed for cultivation,
Increased water demand for the irrigation of these and other nearby
cultivated lands.
The effect of climate change on the marshes may take two forms:
1.
Spatial:
leading to reduction in the total area of the marshes
2.
Temporal:
shortening of the duration in which the marshes exist during each year. This
may mean, for example, that there may be no marshland left for the birds in
their autumn return migration.
It is estimated that the total area of the marshes may undergo a decline
at the rate of about 6% per year. At
this rate, without climate change, the marshes may practically disappear in
less than two decades and without climate change. This will be obviously
exasperated under climate change.
The Sour sandy beach,
the only remaining significant sand dune habitat in Lebanon for many plants and
animals that are unable to thrive except on sandy substrates. The main
pressures on the sandy beach in the foreseeable future, without climate change,
is land reclamation and tourist development. Increased population density and
the demand for more agricultural land will place more pressure on the whole
zone. It is considered to be highly vulnerable to sea level rise and is
classified as “critical”. This implies high vulnerability to erosion and
flooding. The establishment of a nature reserve in the Ras El-Ain area may not
be enough to protect sufficient sandy areas. There is a risk that the sandy
beach narrow or even disappear with its indigenous fauna and flora.
The Palm Islands Nature Reserve,
composed of three islets, will be subjected to inundation under a
climate-change scenario.
The
main problems facing the Lebanese wildlife today are the same as those listed
above for natural areas. Populations of many species may be subjected to
extirpation (local extinction) due to the great fragmentation affecting their
habitats. This fragmentation is likely to continue and perhaps accelerate due
to increased urbanization.
The
species most vulnerable to climate change may be those that are endemic,
endangered, at the edge of their geographic distribution, montane, coastal and
those which may be replaced by potential competitors from other zones. Some
such species have been named in this report as facing decline or extinction.
In Lebanon, the known
endangered forest tree species are found in degraded, heavily grazed areas. The
extent to which they face threat is directly related to the continuing human
pressures through felling and grazing. No study has quantified these two
aspects. Under climate change, some their areas of distribution may shift
bioclimatically putting more stresses on these species.
ADAPTATION
Adaptations that may reduce the
climate change impact may include the following:
1.
Natural adaptation where the vegetation and wildlife
may acclimatize where the climate change may srtill be within their tolerance
range. Some may adapt (in the evolutionary sense) if containing enough genetic
diversity. T
2.
Natural adaptation may have to be assisted by
exploring and cultivating certain drought-tolerant ecotypes. It may be also be
enhanced by reducing habitat fragmentation and thus allowing the natural
genetic variation to lead to suitable adaptations.
3.
Habitat fragmentation can be reduced by establishing
corridors and connections between the isolated habitat types.
4.
Intensive studies on species and ecosystems have to
be devoted to assess the degree of vulnerability an to discern the above
aspects.
5. Water use and change in land use have to be
rationalized to protect wetlands and riparian habitats.
6. The area and the number of protected areas
need to be expanded to include more of the sensitive habitat types and/or more
vegetation and bioclimatic zones.
7. Buffer zones need to be established around
protected areas to reduce the human impacts and those of climate change.
8.
Adaptation measures have to be adopted within the
next two decades.
9. Because of the international importance of
some protected area it may be possible to seek international assistance
especially in schemes such as “debt swapping” which involves trading foreign
debts for financing the establishment and maintenance of protected areas and
nature reserves.