Experiments with Lead and Acid in Wetland Microcosms* Shanshin Ton In order to study the toxicity of lead in wetland conditions like those of the Steele City Bay, Appendix Table A7.1.. B
Trang 1Experiments with Lead and Acid
in Wetland Microcosms*
Shanshin Ton
In order to study the toxicity of lead in wetland conditions like those of the Steele City Bay,
Appendix Table A7.1) A microcosm is a small ecosystem developing in a container In this experiment peaty materials and a seeding of life from the outdoor swamp were placed in each container and allowed to develop for 2 months Each microcosm had a teaspoon of fertilizer nutrients placed under the root zone Seedlings were added, and the microcosms were arranged
at random in a greenhouse Arrangements were made for chemical solutions containing lead and acid in different concentrations to drip into these containers (Figure 7.1) In this way, some conditions in the Sapp swamp were duplicated All microcosms received similar quantities of water so that the effect of water on growth was made uniform Microcosms were not crowded together so that there was abundant natural light Height of seedlings was measured and related
to the treatments
Lead concentrations applied were 0.5 and 1.0 µg/ml (a microgram per milliliter [µg/ml] is the same as a gram per cubic meter [g/m3]) Solutions with zero lead were also applied A comparison without special treatment is called a control Because some growths developed in the tubes deliv-ering the waters with lead, the concentrations actually reaching the microcosms, when analyzed,
Acidity like that in the Steele City Bay was duplicated in microcosm by adding sulfuric acid
to the dripping waters pH is the scale of acidity (concentration of hydrogen ions on a logarithmic scale; the lower the value the more acid; pH 4 is ten times more acid than pH 5) Treatment waters dripping into microcosms for 8 months included pH 2, 4, and the neutral pH 7 Neutral pH is neither acid nor basic and was included for comparison (control) Cypress and gum trees are found naturally in waters between pH 4 (normal acidity of swamps) and pH 8 (the slightly basic conditions
of most spring waters in Florida)
Microcosms were started in June 1991 and a period of 2 months was designated for the stabilization of seedlings and the development of a small ecosystem in the container Figure 7.2 shows the average addition to height of seedlings over the 16 months of growth starting in August
1991 Both cypress and gum are deciduous, dropping leaves in November and replacing them in April Thus, there was about 2 months growth before the leaves fell Growth stopped for about 4 months, resuming after the leaves returned
The rate of growth (centimeters increase in seedling height per month) for this period can
be observed as the changes between monthly observations in Figure 7.2 Notice that growth was
* Condensed by the Editor.
Trang 288 HEAVY METALS IN THE ENVIRONMENT: USING WETLANDS FOR THEIR REMOVAL
moderate at first during the autumn months when light was less, stopping during the leafless winter months, accelerating during the summer, and stopping again during the next winter Under these conditions, the gum seedlings were slow to start growth and the cypress were slightly taller
at the end As often observed when new seedlings are planted, growth accelerates as the leaf area and root systems increase, capturing more sunlight for photosynthesis and transpiration (processing of water from roots through microscopic leaf holes into the air, keeping leaves cool and drawing up nutrients)
At the end of the summer of the second year, growth stopped 3 months before the normal time for leaf fall This may be due to a combination of nutrient limitation and water stress which result from higher respiration rate of rapidly growing seedlings during summer months Due to the large size of the seedlings and the hypothesis of nutrient limitation and water stress, I cut the seedlings
to their original height before the next growing season They did regrow in the third year from March to July 1993 before I stopped the experiment
Because the experiment had many replications (six duplicates for each treatment or control),
it was possible to use statistical methods to learn if the differences between treatments were greater than the variation among microcosms with the same treatment Thus, an analysis of variance was made of the height growth data as detailed in Appendix Tables A7.3 to A7.5 None of the treatments with lead or acid or their combinations was proven to have any effect greater than the general variation among the replications Therefore all the data were averaged in Figure 7.2 Because of the self-organizing abilities of a set of species in an ecosystem, isolated microcosms, although started similarly, normally develop different individual characteristics, adding variability to micro-cosm research
The range of acidity and lead in the Steele City Bay swamps from 1990 to 1993 was less toxic (lower pH [1 to 2] and higher lead concentrations [3 µg/ml]) than that which occurred during the period of battery washing when the trees were killed The range of acidity and lead treatments in the microcosm was that of the present swamps many years after the initial toxicity
Therefore, the question addressed in the microcosm study was whether the present levels of acid and lead were toxic to regrowth of swamp trees The results showed that the present levels
Figure 7.1 Sketch showing seedling microcosms and arrangement to supply steady flow of water, acid, and
lead.
Treatment Waters Acid, Lead
Trang 3EXPERIMENTS WITH LEAD AND ACID IN WETLAND MICROCOSMS 89
were not toxic to the two species of swamp trees predominant in this area Cypress and gum require bare swamp soils for germination and regeneration Because the waters had been dammed, there was no normal hydroperiod, and thus no bare swamp exposed in drought periods The field observations showed many cypress seedlings growing back along the edges of the swamp where germination was possible There was abundant growth of floating plants in open waters It may be concluded that the present conditions are not toxic to regrowth
Figure 7.2 Cumulative record of average height increases in growth of seedlings in wetland microcosms 1991
to 1992 The change between points is the height increase per month (centimeters per month).
Months
A S O N D J F M A M Ju Jy A S O N 0
20 40 60
80
Pond Cypress
Black Gum
No Leaves
Lead & Acid Started