Particle (ecology)
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In marine and freshwater ecology, a particle is a small object. Particles can remain in suspension in the ocean or freshwater, however they eventually settle (rate determined by Stokes' law) and accumulate as sediment. Some can enter the atmosphere through wave action where they can act as cloud condensation nuclei (CCN). Many organisms filter particles out of the water with unique filtration mechanisms (filter feeders). Particles are often associated with high loads of toxins which attach to the surface. As these toxins are passed up the food chain they accumulate in fatty tissue and become increasingly concentrated in predators (see bioaccumulation. Very little is known about the dynamics of particles, especially when they are re-suspended by dredging. They can remain floating in the water and drift over long distances. The decomposition of some particles by bacteria consumes a lot of oxygen and can cause the water to become hypoxic.
[edit] Particle analysis
Particle levels in water or air can be anlyzed with a particle counter. They can also be scanned with a underwater microscope, such as ecoSCOPE. Collected particles of size 20 - 200 micrometers hovering in the free water in the vicinity of a harbor had the following contaminant levels (table). Many of those contaminants are carcinogenic.
| Contaminant | Mass of contaminant relative to total particle dry weight |
|---|---|
| Arsenic | 8.17 mg kg-1 |
| Lead | 80.1 mg kg-1 |
| Cadmium | 0.61 mg kg-1 |
| Chromium | 31.2 mg kg-1 |
| Copper | 44 mg kg-1 |
| Nickel | 20.6 mg kg-1 |
| mercury | 0.86 mg kg-1 |
| Zinc | 156 mg kg-1 |
| EOX | 0.79 mg kg-1 |
| Anthracene | 602 µg kg-1 |
| Fluoranthene | 5947 µg kg-1 |
| Pyrene | 5549 µg kg-1 |
| Benzo(a)anthracene | 5296 µg kg-1 |
| Benzo(b)fluoranthene | 2499 µg kg-1 |
| Benzo(k)fluoranthene | 1652 µg kg-1 |
| Benzo(a)pyrene | 1895 µg kg-1 |
| Dibenzo(ah)anthracene | 200 µg kg-1 |
| Benzo(ghi)perylene | 1533 µg kg-1 |
| Dichloromethane | 66 µg kg-1 |
| Chloroform | 11 µg kg-1 |
| Carbon tetrachloride | 5 µg kg-1 |
| 1,1,1-Trichloroethane | 4 µg kg-1 |
| Pentachlorophenol | 22 µg kg-1 |
| 1,2,3-Trichlorobenzene | 0.4 µg kg-1 |
| 1,3,5-Trichlorobenzene | 0.4 µg kg-1 |
| 1,2,4-Trichlorobenzene | 1.4 µg kg-1 |
| 1,2,3/4,5-Tetrachlorobenzene | 1.2 µg kg-1 |
| 1,2,3,4-Tetrachlorobenzene | 0.4 µg kg-1 |
| Pentachlorobenzene | 0.8 µg kg-1 |
| Hexachlorobenzene | 3.9 µg kg-1 |
| Total PCBs | 2205 µg kg-1 |
| PCB 28 | 598 µg kg-1 |
| PCB 52 | 331 µg kg-1 |
| PCB 101 | 205 µg kg-1 |
| PCB 138 | 414 µg kg-1 |
| PCB 153 | 432 µg kg-1 |
| PCB 180 | 225 µg kg-1 |
| Benzene | 108 µg kg-1 |
| Toluene | 655 µg kg-1 |
| o,-m,-p-Xylene | 247 µg kg-1 |
| 2,3,7,8-TCDF (dioxin) | 0.8 ng kg-1 |
[edit] Contaminant kinetics
It takes a few days until plankton organisms have filtered the particles and incorporated the toxins into their body fat and tissue: In the southwards flow of the waters of the Hudson off the coast of New Jersey, the highest levels of mercury in copepods have not been found directly in front of the river off New York but 150 km south, off Atlantic City.
Many copepods are then captured by mysidae, krill and smallest fish like the juveniles of atlantic herring - and in each step of the foodchain the toxin concentrations increase by the factor of 10. The milk of mothers (Homo sapiens) consuming fish and related products like margerine and eggs in such areas have so high toxin levels that it would be impossible to sell such milk on markets - their babies have much more birth-defects and/or retarded brains and have later difficulties to learn and/or reproduce. Many die at an early age.
Filter of krill: The first degree filter setae carry in v-form two rows of second degree setae, pointing towards the inside of the feeding basket. The purple ball is one micrometer in size. To display the total area of this fascinating particle filtration structure one would have to tile 7500 times this image.
Filter basket of a mysid. These 3 cm long animals live close to shore and hover above the sea floor, collecting constantly particles. They are an important food source for herring, cod, flounder, striped bass. In polluted areas they have in their tissue extremely high toxin levels, they are very robust and take a lot of poison before they die. Such filter feeding organisms are the reason that much of the materials we through in the oceans comes back to us in our food.
[edit] See also
- Marine pollution
- Hypoxia for articles dealing with hypoxia or anoxia in the environment
