Water webs connect spiders, residents in Southwest

Jun 25, 2009
During dry periods, thirsty wolf spiders pursue crickets more aggressively, seeking water rather than nutrition. (Photo credit: Kevin McCluney/Arizona State University)

(PhysOrg.com) -- If you are a cricket and it is a dry season on the San Pedro River in Arizona, on your nighttime ramblings to eat leaves, you are more likely to be ambushed by thirsty wolf spiders, or so a June 19 study suggests, published in the journal Ecology, and featured in the journal Science.

A potential horror story for any cricket. However, it is also a tale of limitation that looks beyond how most ecosystem studies are considered. Much current work about the relationships between predators and is based on nutrients or energy limitation - via a food web.

The research, performed by graduate student Kevin McCluney and associate professor John Sabo in School of Life Sciences at Arizona State University, demonstrates that under restricted water conditions, crickets consume more moist green leaves and wolf spiders more crickets. This distinct increase is driven by water limitation and the connectivity between organisms based on water - a water web.

With water the key ingredient to life, especially in the desert, why the focus on crickets and spiders and water webs? Studies on insects and riparian ecosystems such as these lend specific insights into how arid and semi-arid environments and their and may be specifically affected by global climate change.

The authors note: “Water seems to be the ecological currency governing consumption behavior at multiple trophic levels, which indicates a role for water in understanding effects of global change on animal communities.”

This article coincides with the June 18 release of the national report “Global Climate Change Impacts in the United States,” funded by the National Science and Technology Council and authored by members of the U.S. Global Change Research Program, including ASU professor Nancy Grimm. The report contains a special section on the Southwest. Major changes in and precipitation are expected as a result of climate change. McCluney and Sabo’s study highlights one way ecological communities may be affected.

“Kevin’s experiments suggest that by understanding water webs, we can find clues about how biodiversity may change as our region experiences drier climates under ,” adds Sabo.

In that way, this study of crickets and spiders offers a looking glass into a future that extend much farther than the banks of one of the last undammed perennial rivers in the Southwest and the vibrant riparian community it supports.

“Drylands constitute more than one third of the land mass on Earth,” McCluney notes. “While further testing is needed, our study may have implications for other ecosystems in light of recent reports of droughts and rivers drying up globally.”

In addition to examining the water ties that bind inhabitants of terrestrial systems, Sabo and his students also examine aquatic ecosystems and the effects of human activity and water policy in the Southwest. In 2008, with funding from the National Science Foundation, Sabo launched a series of workshops to examine the impacts of dams on waterways in the United States held at the National Center for Ecological Synthesis and Analysis at University of California, Santa Barbara.

Participants are working to define the ecological footprint that dams have had on water quantity and quality, the number of native and non-native species in rivers, the salinity of soils in some of the most productive agricultural areas, and the demand for irrigated water by the 100 largest cities in the United States. Along with studies by his ASU colleagues in the Global Institute of Sustainability and the College of Liberal Arts and Sciences, such as Juliet Stromberg, author of “The Ecology and Conservation of the San Pedro,” Sabo seeks to illuminate the complexity of relationships behind developing sustainable management of water resources for both human and biodiversity needs.

Provided by Arizona State University (news : web)

Explore further: Japan to redesign Antarctic whale hunt after UN court ruling

add to favorites email to friend print save as pdf

Related Stories

World's water ecosystems under threat

Sep 11, 2008

(PhysOrg.com) -- Human activities such as fishing and water use are over-riding the effects of global warming on the ecosystems that support the world’s water and fish supplies, experts have revealed.

Recommended for you

Scientists tether lionfish to Cayman reefs

3 hours ago

Research done by U.S. scientists in the Cayman Islands suggests that native predators can be trained to gobble up invasive lionfish that colonize regional reefs and voraciously prey on juvenile marine creatures.

India's ancient mammals survived multiple pressures

23 hours ago

Most of the mammals that lived in India 200,000 years ago still roam the subcontinent today, in spite of two ice ages, a volcanic super-eruption and the arrival of people, a study reveals.

User comments : 0

More news stories

Male monkey filmed caring for dying mate (w/ Video)

(Phys.org) —The incident was captured by Dr Bruna Bezerra and colleagues in the Atlantic Forest in the Northeast of Brazil.  Dr Bezerra is a Research Associate at the University of Bristol and a Professor ...

Scientists tether lionfish to Cayman reefs

Research done by U.S. scientists in the Cayman Islands suggests that native predators can be trained to gobble up invasive lionfish that colonize regional reefs and voraciously prey on juvenile marine creatures.

'Exotic' material is like a switch when super thin

(Phys.org) —Ever-shrinking electronic devices could get down to atomic dimensions with the help of transition metal oxides, a class of materials that seems to have it all: superconductivity, magnetoresistance ...