Abstrakti
The transboundary Mekong River is facing two on-going changes that are
estimated to significantly impact its hydrology and the characteristics
of its exceptional flood pulse. The rapid economic development of the
riparian countries has led to massive plans for hydropower construction,
and the projected climate change is expected to alter the monsoon
patterns and increase temperature in the basin. The aim of this study is
to assess the cumulative impact of these factors on the hydrology of the
Mekong within next 20-30 yr. We downscaled output of five General
Circulation Models (GCMs) that were found to perform well in the Mekong
region. For the simulation of reservoir operation, we used an
optimisation approach to estimate the operation of multiple reservoirs,
including both existing and planned hydropower reservoirs. For
hydrological assessment, we used a distributed hydrological model, VMod,
with a grid resolution of 5 km × 5 km. In terms of climate
change's impact to hydrology, we found a high variation in the discharge
results depending on which of the GCMs is used as input. The simulated
change in discharge at Kratie (Cambodia) between the baseline
(1982-1992) and projected time period (2032-2042) ranges from -11% to
+15% for the wet season and -10% to +13% for the dry season. Our
analysis also shows that the changes in discharge due to planned
reservoir operations are clearly larger than those simulated due to
climate change: 25-160% higher dry season flows and 5-24% lower flood
peaks in Kratie. The projected cumulative impacts follow rather closely
the reservoir operation impacts, with an envelope around them induced by
the different GCMs. Our results thus indicate that within the coming
20-30 yr, the operation of planned hydropower reservoirs is likely to
have a larger impact on the Mekong hydrograph than the impacts of
climate change, particularly during the dry season. On the other hand,
climate change will increase the uncertainty of the estimated hydropower
impacts. Consequently, both dam planners and dam operators should pay
better attention to the cumulative impacts of climate change and
reservoir operation to the aquatic ecosystems, including the
multibillion-dollar Mekong fisheries.
Alkuperäiskieli | Englanti |
---|---|
Sivut | 4603-4619 |
Julkaisu | Hydrology and Earth System Sciences Discussions |
Vuosikerta | 16 |
DOI - pysyväislinkit | |
Tila | Julkaistu - 2012 |
OKM-julkaisutyyppi | B1 Kirjoitus tieteellisessä aikakauslehdessä |