Possible Applications of Water Hyac

Possible Applications of Water Hyacinth: Through
water hyacinth’s engulfing presence, large amounts
of sunlight are blocked, thorough oxygen exchange is
prevented and dissolved oxygen levels drop, the food
web is altered, habitat for water fowl and other
44
Ecological and socio-economic utilization…..
N JAFARI
organisms is either destroyed or changed, and the
biological diversity of the invaded area is greatly
reduced (Denny et al., 2001, Brendonck, 2003).
Water hyacinth can be a problem economically as it
negatively affects fisheries, slows or even prevents
water traffic, impedes irrigation, reduces the water
supply, obstructs water ways, and slows hydropower
generation (Denny et al., 2001, Brendonck, 2003).
The positive aspects of the weed thus seem to
outweigh its negative attributes.
Prior research on water hyacinth’s effects on water
quality has focused mainly on the consequences of
the dense mats formed by the interlocking of
individual plants. The most commonly documented
effects are lower phytoplankton productivity and
dissolved oxygen concentrations beneath mats
(Rommens et al., 2003; Mangas-Ramirez and EliasGutierrez,
2004; Perna and Burrows, 2005). Water
hyacinth also has been found to stabilize pH levels
and temperature in experimental lagoons, thereby
preventing stratification and increasing mixing within
the water column (Giraldo and Garzon, 2002).
Photosynthesis is limited beneath water hyacinth
mats, and the plant itself does not release oxygen into
the water as do phytoplankton and submerged
vegetation (Meerhoff et al., 2003), resulting in
decreased dissolved oxygen concentration. The
extent of dissolved oxygen reduction is dependent on
the capacity of the water hyacinth mat to prevent
light infiltration into the water column.
Water hyacinth is just beginning to be used for
phytoremediation. This use came about for a few
reasons, the first being that water hyacinth is so
plentiful. People have been trying to remove the plant
from many water ways, spending billions of dollars
in doing so. In many cases this removal is nigh unto
impossible. It has been discovered that water
hyacinth's quest for nutrients can be turned in a more
useful direction. Water hyacinth is already being used
to clean up waster water in small scale sewage
treatment plants. Phytoremediation used for
removing heavy metals and other pollutants is a
newly developed environmental protection technique.
Extensive studies on freshwater resources
decontamination revealed that some freshwater
plants, among which is the water hyacinth growing
prolific in wastewater, can efficiently accumulate
heavy metals (Yahya, 1990; Vesk et al., 1999; Ali
and Soltan, 1999; Soltan and Rashed, 2003; Tiwari et
al., 2007). Water hyacinth also absorbs organic
contaminants (Zimmels et al., 2007), and nutrients
from the water column (Aoi and Hayashi, 1996). In
California, water hyacinth leaf tissue was found to
have the same mercury concentration as the sediment
beneath, suggesting that plant harvesting could help