Tag: pollution

cleaning lakes

The nitrogen and phosphorus cycles in lakes are linked. Limits in phosphorus content help reduce algal blooms but make it harder for the lake to remove nitrate pollution naturally.

Science magazine recently reported on the linkage between nitrogen and phosphorus cycles in lakes.

Phosphorus pollution can lead to the buildup of algae in lakes and streams, making them unappealing for swimming and fishing. For this reason, phosphorus levels are actively managed to make freshwater bodies more attractive for recreational use. Reducing phosphorus levels has succeeded in reducing algae blooms, but also at least one unforeseen side-effect: it becomes more difficult to remove reactive nitrogen from those same bodies of water. This leaves water that appears cleaner, but is actually even more polluted with nitrogen.

The phosphorus and nitrogen cycles in lakes are linked. Although phosphorus content limits algae growth, the organisms consume at least 40 times more nitrogen. The algae convert reactive nitrogen (in the form of nitrates, or NO3) into inert nitrogen gas (N2), which can be released into the atmosphere or deposited in lake sediments. In this way, algal blooms function as nitrogen sinks removing nitrate pollution from the water. So as phosphorus levels in a lake increase, algae remove nitrogen more quickly. And if phosphorus supply declines, the algae population declines, and there is no mechanism to remove excess nitrates from the water.

In a recent Science paper, Finlay et al. analyzed the relationship between phosphorus content and nitrate removal in a sample of 101 lakes. The researchers compared the difference in the amount of nitrogen that enters a lake and the amount that is found in downstream rivers or creeks. This allowed them to determine how much nitrogen is removed from the lake. By correlating this data with the concentration of phosphorus over time, they were able to show that decreases in phosphorus are linked to slower rates of nitrogen removal. Further analysis revealed lakes with higher phosphorus levels not only removed nitrogen faster, but did so more efficiently. That is, a lake with a high phosphorus content removed a larger percentage of nitrate inputs than one with a low phosphorus content. This remains true even after compensating for the slower removal rate in the lake with low phosphorus content.

Futhermore, a closer look at only large lakes in the data set indicates that nitrogen levels have increased over time as their phosphorus concentrations have been actively managed. These data reveal that lake environments without the appropriate amount of phosphorus are unable to turn over reactive nitrogen species causing a build up of nitrates over time.

Nitrate pollution control is an increasing concern of environmentalists. Humans generate greater amounts of nitrogen waste each year from fossil fuel combustion, fertilizer usage, crop fixation and other activities. This waste is often buried in freshwater systems, imposing challenges on underwater plant and animal populations, as well as communities who rely on lakes for their drinking water. While phosphorus pollution is controlled to limit algal blooms, nitrate pollution has proliferated, creating these unforeseen challenges. At present, no scientific authorities advocate removal of phosphorus pollution controls as a solution to these problems. And the results of this study suggest a more holistic approach to phosphorus and nitrogen pollution instead of focusing on one variable at a time. As phosphorus pollution is already well managed, future solutions should focus on controlling nitrate pollution and maintaining the proper balance of nitrogen and phosphorus levels, to allow a lake to effectively clear pollution.

pollution linked to smaller babies

pollution

Pollution in the air is linked to the birth of underweight newborns

In a new study, published in Environmental Health Perspectives this week, shows that high levels of pollution are linked to smaller babies. The study looked at levels of particulate mater (PM) in the United States, Korea and Brazil and correlated it to the weight of newborns.  From Scientific American:

By the authors’ calculations, each increase in PM10 by 10 micrograms per cubic meter (μg m–3) was associated with a 3% higher chance of an infant being underweight and with an overall average weight reduced by 3 grams. That reduction in average weight tripled to 9 g when the authors adjusted for local variables such as maternal age or tobacco use. The calculations took socioeconomic status into account.

The median PM10 value varied across the 14 sites, from 12.5 μg m–3 in Vancouver to 66.5 μg m–3 in Seoul. For a subset of centers that included information on PM2.5exposure, the odds of lower birth weight increased by 10% for each increase in exposure.

As Trasande explains, the risks are small at the individual level, but “on a population basis, a shift can produce large increases in the percentage of low-birth-weight infants”, he says. Smoking, alcohol and drug use and poor maternal health are also linked to low birth weights.

In a study of more than 220,000 US births published last month, Trasande and his colleagues found that outdoor air pollution was associated with longer hospital stays and greater health-care costs. In 2010, 8.2% of infants born in the United States were of low birth weight.

using birds to monitor pollution

Sparrows

Birds can help us keep track of overall pollution levels as a lot of pollution can show up in their eggs. From Nature:

Nesting birds that feed on insects that hatch in lake or stream-bed sediments may make good biomonitors for pollution, says Thomas Custer of the US Geological Survey’s Upper Midwest Environmental Sciences Center in La Crosse, Wisconsin. That’s because any contamination in the sediment will make its way into the birds and into their eggs and young.

An example, says Custer, is the tree swallow (Tachycineta bicolor), which still showed “significant quantities” of toxic chemicals called polychlorinated biphenols in its eggs and chicks seven years after remediation efforts started at a former capacitor-manufacturing plant in Crab Orchard National Wildlife Refuge in southern Illinois1. The findings “prompted further sediment removal”, he says.

Please check the source link for more.

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