Stream pollution good for mosquitoes; lakefront development affects lake fish; greenroofs can save cities millions of gallons of water
Increasingly, human urban development overlaps with habitat for wild animals and plants, creating environments that degrade natural landscapes. But people, animals and plants all have in common the need for healthy, sustainable freshwater ecosystems. In a series of presentations at the Ecological Society of America’s Annual Meeting, to be held August 2-7, 2009, ecologists present research results that guide efforts to balance an increasingly urbanized society with the need to conserve and protect water and aquatic ecosystems.
Urban stream pollution can be good for mosquitoes
Sewage overflows are a fact of life in urban areas, and in many cities, excess sewage water enters streams and lakes with rain runoff. Although this pollution is harmful to most organisms, there is one group of insects that thrives on it: mosquitoes.
Luis Fernando Chaves, a post-doctoral researcher at Emory University, and his team discovered mosquitoes in abundance in a sewage-contaminated stream in Atlanta, but rarely in a nearby clean stream. They also found that mosquitoes were largest in streams with high levels of organic minerals – in this case, nitrogen and phosphorous – that originated from the sewage treatment plants. Likewise, in laboratory experiments, mosquitoes reared in sewage overflow were larger than those reared in clean water.
“In this food web, mosquitoes feed on microorganisms that require nitrogen and phosphorous to grow,” Chaves says. “This translates into an input of food for the mosquitoes.” When there’s more organic matter, the microorganisms flourish, he says, and larval mosquitoes can eat like kings.
To make matter worse, it’s possible that other aquatic insects that would feed on mosquito larvae are poisoned in sewage overflow water. Many aquatic insects breathe underwater through gill-like structures, so excess nitrogen and phosphorous could be toxic to them. Mosquito larvae, however, breathe air at the water’s surface through a specialized siphon. Chaves says that this combination of an increase in food and a potential decline in predators could be the key to these mosquitoes’ success.
Larger mosquitoes tend to result from a longer lifespan, which is dangerous because it gives mosquitoes a better chance of harboring pathogens that cause human diseases. Chaves makes the case that cities should separate their sewage overflow from their rain runoff to avoid creating ideal habitat for mosquitoes.
Lakeshore development reduces food supplies for fish
Freshwater fish, especially stream fish, rely on terrestrial insects as a portion of their food supply. But little is known about their importance to fish in lakes, where the size and shape of a lake can determine how much its fish rely on shoreline food sources. Tessa Francis, a post-doctoral researcher at the National Oceanographic and Atmospheric Administration (NOAA), wanted to know if the urbanization of lakeshores affects the amount of terrestrial insects available as food to the lake’s fish inhabitants. To answer her question, she analyzed fish stomach contents over the course of a year in four Pacific Northwest lakes, surveyed fish in 28 Pacific Northwest lakes and compiled published data on fish populations in lakes across North America.
At undeveloped lakes, insect outbreaks often happen in pulses, in which insects emerge over a short time period, but Francis and her team found no signs of these pulses in highly developed areas. This disparity was apparent in fish food availability: In the four lakes, terrestrial insects comprised up to 100 percent of the diet of fish in undeveloped lakes, in contrast to a maximum of 2 percent in developed lakes, a pattern that was also apparent at the regional and national scale.
Francis’ research also showed that trout in developed lakes had a 50 percent lower daily intake of energy. Lower energy intake can slow growth and compromise fish reproduction, she says, which will ultimately lead to population declines. But she emphasizes that even a small amount of shoreline vegetation can serve as insect habitat.
“Our shorelines need to remain as intact as possible, with a mix of trees and shrubs,” she says. “But we may not need a dense, native forest. There likely are designs that are compatible with both lakeshore development and sustaining lake food webs.”
Greenroofs can save cities millions of gallons of water
Having a garden on your roof isn’t just nice for a garden party; it can make your city more environmentally friendly. Many American cities are beginning to incorporate greenroofs into their planning ordinances because they recognize that, planting a rooftop garden can offset heat, increase city biodiversity and decrease stormwater runoff. This runoff can be problematic in cities where rainwater is funneled by streets and parking lots directly into streams, carrying with it chemicals and debris and increasing the risk of flash floods.
But the plants on greenroofs can absorb some of this water – “like a sponge being saturated,” says Olyssa Starry, a graduate student at the University of Maryland at Baltimore County. Starry studied a greenroof atop a Baltimore building in comparison to a similar building without a greenroof to determine how well the roof would absorb water from frequent storms. By measuring water flowing out of building downspouts, she found that the greenroof retained from 30 to 75 percent of water from storms, compared to a negligible amount retained by the building with no greenroof.
Although her results are preliminary, Starry thinks that cities can reap benefits from making greenroofs a part of their building requirements, as cities like Toronto and Berlin have recently done. Using GIS satellite imagery, she estimated the number and area of buildings that could hold greenroofs within one watershed in the Baltimore area. If all these roofs were greened, she says, the city could save the watershed 8 million gallons of water per year, or about 10 percent of its yearly water loss.
“We need to understand what implementing these greenroofs at the whole watershed scale can do,” she says. “Getting people to learn about this technology and providing incentives is the first step.”
The researchers will present their results in the following sessions at the Albuquerque Convention Center:
Luis Fernando Chaves: Urban Ecosystems Poster Session, Thurs., Aug. 6, 5-7 p.m.
Tessa Francis: Urban Ecosystems Oral Session, Mon., August 3, 1:50 p.m.
Olyssa Starry: Latebreaking Urban Ecosystems Poster Session, Fri., Aug. 7, 8:30-10:30 a.m.
ESA’s 94th Annual Meeting will be held Aug. 2-7 in Albuquerque, New Mexico. The meeting will include more than 3,500 scientists, students and educators, and will center around the theme, “Ecological Knowledge and a Global Sustainable Society.”
The meeting program is available online in searchable format at eco.confex.com/eco/2009/techprogram/. All abstracts are embargoed until 12:00 a.m. Mountain Time the day of their presentation.
Other ESA Annual Meeting sessions on urban ecology:
- Sustainable Cities: The Potential of Urban Regions for Advancing Ecology, Conservation and Education (oral session)
- Human Macroecology: Understanding Human-Environment Interactions Across Scales (symposium)
- Sustainable Urban Design: What Do Ecologists Have to Offer? (symposium)