Toxic Substances Monitoring Programme
Since 2004, the EPD has expanded its activities
by developing a new toxic substances monitoring programme, which
focuses on the monitoring of trace levels of toxic chemicals such
as dioxins, pesticides, and heavy metals. These chemicals persist
in the environment: they build up in the food chain and can harm
marine organisms and humans who consume contaminated seafood.
The toxic substances monitoring programme came
about as a result of a 'Study of Toxic Substances Pollution in Hong
Kong' conducted by the EPD from 1999 to 2003. The study gathered
preliminary information about the levels of trace toxic chemicals
in the marine environment and assessed the risks they could pose
to the ecosystem and to human health. It concluded that although
Hong Kong's marine environment was not widely polluted with toxic
chemicals at levels causing concern, there was a definite need to
monitor a number of trace toxic pollutants that held potential risks
in some areas.
Following up on the recommendations of the
study, in 2004 the Water Monitoring Section of the EPD initiated
the toxic substances monitoring programme. The objectives of the
programme were, first, to gain a clearer picture of the levels of
trace toxic pollutants in the marine environment (i.e. in water,
sediment and biota), and in sources of pollution (e.g. sewage, rivers,
and storm runoff). Second, the programme aimed to monitor whether
existing levels of toxic pollutants posed any special hazards either
to the environment or to human health which might need to be addressed.
Monitoring was set up according to a three-year
cycle, with the first two years focused on the monitoring of toxic
chemicals in the marine environment and the third year on the monitoring
of land-based pollution sources.
[Photo of Dioxins/Furans are persistent
organic pollutants which are harmful even at very low
levels ]
In the first two years (2004-05), the programme
monitored 13 chemicals in marine water, 21 chemicals in bottom sediments,
and nine chemicals in marine biota. The trace organics that were
analysed included dioxins/furans, polychlorinated biphenyls (PCBs),
polycyclic aromatic hydrocarbons (PAHs), dichloro-diphenyltrichloroethane
and its metabolites (DDTs), and organotin compounds (TBTs). Toxic
metals covered by the monitoring included cadmium (Cd), copper (Cu)
and mercury (Hg). Under the programme, EPD staff collected samples
of marine water and bottom sediment from across seven different
Water Control Zones representing the full geographical range of
Hong Kong waters: Mirs Bay, Tolo Harbour, Junk Bay, Victoria Harbour,
Southern, North Western and Deep Bay. At the same time, samples
of marine biota including fish, bivalves, shrimps and mantis shrimps
were collected from five Water Control Zones.
[Photo of Sorting samples of marine
biota on board vessel for the toxic substances
monitoring programme]
The initial findings of the 2004-05 monitoring
programme were largely consistent with the conclusions of the 'Study
of Toxic Substances Pollution in Hong Kong', namely that levels
of toxic substances were low in most Hong Kong marine environment
and not of major concern. It was found, however, that some heavy
metals in sediment from Victoria Harbour occurred at particularly
higher levels.
Toxic substances monitoring will continue in
2006 with a special focus on pollution sources such as raw sewage,
effluent from sewage treatment plants, river water, and storm run-off.
Hong Kong is party to the Stockholm Convention on Persistent Organic
Pollutants (POPs), and as part of its implementation of the Convention,
the toxic substances monitoring programme will be further expanded
in the future to include all 12 POPs covered by the Convention.
Bioindicators Monitoring Programme
[Photo of Dissecting the gonad of
a pony fish Leiognathus brevirostris, used in the bioindicators
monitoring programme]
Another recent initiative by the EPD has been
a new Bioindicators Monitoring Programme, launched in 2004. The
EPD's water monitoring programme from the 1980s onward had mostly
focused on physico-chemical parameters of marine water and sediment.
Biomonitoring had been restricted to the monitoring of sewage bacteria
and phytoplankton as part of the general marine water quality monitoring.
There had been no monitoring of effects of toxic pollution on marine
organisms.
Generally, biomonitoring is a good way to assess
the ecological health of the marine environment. In particular,
it can be vital in determining whether organisms have suffered any
damage at different biological levels (biochemical, cytological,
physiological, organismal, community) and if so, in relating that
damage to pollution. .
Between 2001 and 2003, the EPD undertook a
study on the 'Development of a Biological Indicator System for Monitoring
Marine Pollution'. Amongst other things, the study recommended the
setting up of a bioindicators monitoring programme that would track
the biological effects of pollution. The objectives of the programme
would be to monitor the biological responses of indicator species
with respect to changes in water quality; to compare biological
effects of pollution across Hong Kong waters; and to assess the
overall ecological health of Hong Kong's marine environment.
The study recommended
that the programme should monitor a total of 13 bioindicators at
different levels of biological organisation. The indicators were
as follows:
- Ethoxyresourufin O-deethylase (EROD) in
fish liver
- Lysosomal integrity of mussels
- Body burden of heavy metals and trace organics
in mussels
- Condition Factor (CF) of fish
- Hepatosomatic Index (HSI) of fish
- Gonadosomatic Index (GSI) of fish
- Fin erosion of fish
- Epidermal hyperplasia of fish
- Imposex of gastropods
- Diversity indices of benthos (benthic community)
- Log normal distribution of benthos
- ABC (Abundance and Biomass Comparison) plots
of benthos
- Multivariate statistics of benthos
When the EPD began the programme in 2004 and
2005, it included the first nine bioindicators above, while the
other four community indicators, monitored once every three years,
were included in 2006.
The new bioindicators monitoring programme
was carried out in six zones which took into account the pollution
levels in different areas of Hong Kong waters. The six zones were
Zone 1 (Deep Bay), Zone 2 (Western Waters), Zone 3 (Tolo Harbour
and Inner Mirs Bay), Zone 4 (Port Shelter and Outer Mirs Bay), Zone
5 (Southern Waters) and Zone 6 (Victoria Harbour and Junk Bay).
Of the bioindicators described above, the programme
showed that fish in Hong Kong waters were generally free from pollution-related
fin erosion and epidermal hyperplasia. Certain other bioindicators
posed some concern however, such as imposex of gastropods, which
can be triggered by TBT compounds (used as antifoulant on the hulls
of ships). TBT compounds can disrupt the reproduction of sea snails
by changing their sex, even when it occurs at very low levels in
marine water.
Mussels are able to accumulate toxic substances
in their bodies, and have been used as bioindicators in many places.
Early data have shown that levels of PCBs and PAHs in green mussels
near urban centres such as Tsim Sha Tsui are higher than elsewhere
in Hong Kong, although PCB contamination in all the mussels analysed
was low.
These two new programmes are supplementing
the existing marine water monitoring programme, and together they
are helping the EPD get a more comprehensive picture than ever before
of the state of Hong Kong's marine environment and the moves that
need to be made to protect and restore it.