Toxic tides- A red tide or a bloom

Toxic tides

- A red tide or a bloom of deadly aquatic microorganisms called dinoflagellates

- Red tides-and other colors, depending on the species involved-have become increasingly common in slow-moving rivers, brackish lagoons, estuaries (ปากแม่น้ำ น้ำจืด น้ำทะเลมาบรรจบกัน), and bays, as well as near-shore ocean waters where nutrients and wastes wash down our rivers

- One of the most feared of these organisms is Pfiesteria piscicida, an extraordinarily poisonous dinoflagellate that only recently has been recognized as a killer of finfish and shellfish in polluted rivers and estuaries

- Dinoflagellates are peculiar (พิเศษ) organisms with complex life cycles and many different shapes

- They are unicellular, photosynthetic microorganisms distinct from both plants and animals

- Pfiesteria can change into at least two dozen distinct forms and sizes depending on water temperature, turbulence, and food supply available (Fig. 20.7)

- In calm, warm, brackish water, rich in sewage or other nutrients, Pfiesteria assumes a spherical, nontoxic, but predatory, swimming form that preys on bacteria and plankton

- Under the right conditions, a population explosion can produce a dense bloom of these cells, which can reproduce either by binary fission or sexual fusion of small gametes (เซลล์สืบพันธุ์)

- Produce soluble poisons (toxins) paralyze fish

- Perhaps the scariest thing about Pfiesteria is the recently recognized fact that it can be extremely poisonous to humans, either through eating contaminated seafood, or by breathing aerosols (airborne mist or dust) containing Pfiesteria cells or their secretions (สารที่หลั่งออกมา)

- The symptoms of Pfiesteria poisoning include headaches, blur-red vision, aching joints (ปวดข้อ), burning muscles, difficulty breathing, disorientation (หลงลืม), memory loss, and long-term damage to the brain, liver, pancreas (ตับอ่อน), kidneys, and immune system

Inorganic pollutants

- Among the chemicals of greatest concern are heavy metals, such as mercury, lead, tin, and cadmium

- Super toxic elements, such as selenium and arsenic, also have reached hazardous levels in some waters

- Other inorganic materials, such as acids, salts, nitrates, and chlorine, that normally are not toxic at low concentrations may become concentrated enough to lower water quality or adversely affect biological communities.

Metals:

- Many metals such as mercury, lead, cadmium, and nickel are highly toxic

- Levels in the parts per million range

- So little that you cannot see or taste them

- Can be fatal (ถึงตาย)

- Because metals are highly persistent (ทนทาน), they accumulate in food chains and have a cumulative effect in humans

- A famous case of mercury poisoning in Japan in the 1950s

- A condition known as Itai-Itai (literally ouch-ouch) disease that developed in Japanese living near the Jintsu River was traced to cadmium poisoning from mining and smelting waste-water discharges

- Bacteria forming methylated tin have been found in sediments in Chesapeake Bay, leading to worries that this toxic metal also may be causing unsuspected health effects

- Lead pipes are a serious source of drinking water pollution, especially in older homes or in areas where water is acidic and, therefore, leaches more lead from pipes

- In 1990, the EPA lowered the maximum limit for lead in public drinking water from 50 parts per billion (ppb) to 20 ppb

- Some public health officials argue that lead is neurotoxic at any level, and the limits should be less than 10 ppb

Nonmetallic salts:

- Desert soils often contain high concentrations of soluble salts, including toxic selenium and arsenic

- Such salts as sodium chloride that are nontoxic at low concentrations also can be mobilized by irrigation and concentrated by evaporation, reaching levels that are toxic for plants and animals

- Leaching of road salts into surface waters may have a similarly devastating effect on aquatic ecosystems.

Acids and bases:

- Acids are released as by-products of industrial processes, such as leather tanning, metal smelting and plating, petroleum distillation, and organic chemical synthesis

- Coal mining is an especially important source of acid water pollution

- Coal and oil combustion also leads to formation of atmospheric sulfuric and nitric acids

- Increased acidity may result in leaching of toxic metals, especially aluminum, from soil and rocks, making water unfit for drinking or irrigation, as well

Organic chemicals

- Exposure to very low concentrations of some organics (perhaps even parts per quadrillion in the case of dioxins) can cause birth defects, genetic disorders, and cancer

- The two most important sources of toxic organic chemicals in water are improper disposal of industrial and household wastes and runoff of pesticides from farm fields, forests, roadsides, golf courses, and other places where they are used in large quantities

- The bioaccumulation of DDT in aquatic ecosystems was one of the first of these pathways to be understood

- Dioxins, and other chlorinated hydrocarbons have been shown to accumulate to dangerous levels in the fat of salmon, fish-eating birds, and humans and to cause health problems similar to those resulting from toxic metal compounds

Sediment

- Rivers have always carried sediment to the oceans, but erosion rates in many areas have been greatly accelerated by human activities

- Erosion and runoff from croplands contribute about 25 billion metric tons of soil, sediment, and suspended solids to world surface waters each year

- Forests, grazing lands, urban construction sites, and other sources of erosion and runoff add at least 50 billion additional tons

- This sediment fills lakes and reservoirs, obstructs shipping channels, clogs hydroelectric turbines, and makes purification of drinking water more costly

- Sediments smother gravel beds in which insects take refuge and fish lay their eggs

- Sunlight is blocked so that plants cannot carry out photosynthesis and oxygen levels decline

- Murky, cloudy water also is less attractive for swimming, boating, fishing, and other recreational uses

- Sediment also can be beneficial and harmful

Thermal pollution

- Raising or lowering water temperatures from normal levels can adversely affect water quality and aquatic life

- Effect on O2 solubility

- Humans cause thermal pollution by altering vegetation cover and runoff patterns, as well as by discharging heated water directly into rivers and lakes

- Nearly half the water we withdraw is used for industrial cooling

- A thermal plume of heated water is often discharged into rivers and lakes, where raised temperatures can disrupt many processes in natural ecosystems and drive out sensitive organisms

- In some circumstances, introducing heated water into a water body is beneficial

Water Quality Today

Surface waters in the U.S.

Areas of progress:

- The 1972 Clean Water Act established a National Pollution Discharge Elimination System (NPDES), which requires an easily revoked permit for any industry, municipality or other entity dumping wastes in surface waters

- Even with billions of dollars of investment in sewage treatment plants, elimination of much of the industrial dumping and other gross sources of pollutants, and a general improvement in water quality, the EPA reports that 21,000 water bodies still do not meet their designated uses

- In 1998, a new regulatory approach to water quality assurance was instituted by the EPA

- Rather than issue standards on a river by river approach or factory by factory permit discharge, the focus is being changed to watershed-level monitoring and protection

- The intention of this program is to give the public more and better information about the health of their watersheds

- In addition, states will have greater flexibility as they identify impaired water bodies and set priorities, and new tools will be used to achieve goals

- States are required to identify waters not meeting water quality coals and to develop total maximum daily loads (TMDL) for each pollutant and each listed water body

- A TMDL is the amount of a particular pollutant that a water body can receive from both point and non-point sources

- It considers seasonal variation and includes a margin of safety

- In the future, TMDLs also will include load allocations from all non-point sources, including air deposition and natural background levels.

Remaining problems:

- The greatest impediments to achieving national goals in water quality in both the United States and Canada are sediment, nutrients, and pathogens, especially from non-point discharges of pollutants

Surface waters in other countries

- Japan, Australia, and most of Western Europe also have improved surface water quality in recent years

- Sewage treatment in the wealthier countries of Europe generally equals or surpasses that in the United States

- Other countries

Groundwater and drinking water supplies

- For decades it was widely assumed that groundwater was impervious to pollution because soil would bind chemicals and cleanse water as it percolated through

- Spring-water or artesian well water was considered to be the definitive standard of water purity, but that is no longer true in many areas.

- Every day some 4.5 trillion 1 (1.2 trillion gal) of contaminated water seep into the ground in the U.S. from septic tanks, cesspools, municipal and industrial landfills and waste disposal sites, surface impoundments, agricultural fields, forests, and wells (Fig. 20.15)

- The most important of these in terms of toxicity are probably waste disposal sites