Skip to Content.
Sympa Menu

nafex - [NAFEX] Fwd: Rooting for Helpful Fungi

nafex@lists.ibiblio.org

Subject: North American Fruit Explorers mailing list at ibiblio

List archive

Chronological Thread  
  • From: "Lon J. Rombough" <lonrom@hevanet.com>
  • To: NAFEX <nafex@lists.ibiblio.org>
  • Subject: [NAFEX] Fwd: Rooting for Helpful Fungi
  • Date: Thu, 19 Jan 2006 07:37:32 -0800

Begin forwarded message:

From: ARS News Service <NewsService@ars.usda.gov>
Date: January 19, 2006 6:32:47 AM PST
To: ARS News subscriber <lonrom@hevanet.com>
Subject: Rooting for Helpful Fungi
Reply-To:
ARS News Service <NewsService@ars.usda.gov>

STORY LEAD:
Learning More About Beneficial Soil Fungi
___________________________________________

ARS News Service
Agricultural Research Service, USDA
Jim Core, (301) 504-1619, jcore@ars.usda.gov
January 19, 2006
--View this report online, plus any included photos or other images, at www.ars.usda.gov/is/pr
___________________________________________

Beneficial soil fungi that help plants grow could become easier for farmers to use, based on research by Agricultural Research Service (ARS) scientists who are studying these valuable organisms.

The fungi, called mycorrhizal fungi, live inside and outside root cells and help them reach for nutrients by extending long threads called hyphae into the soil. The plant, in exchange, provides the fungi glucose and possibly other organic materials that they need to survive. Unfortunately, modern agricultural practices have reduced populations of arbuscular mycorrhizal (AM) fungi, the most common type.

By learning more about AM fungi physiology and finding ways to grow colonies without host plants, ARS scientists at the Eastern Regional Research Center in Wyndmoor, Pa., hope to make the fungi a practical option for producers.

Currently, researchers cannot cultivate an AM fungus without a host because the fungus can't complete its life cycle without the organic nutrients or other stimuli it receives from roots. Gerald Nagahashi, a chemist/cell biologist at ERRC, has been focusing on the events that must occur before the fungus can colonize a host plant.

He developed a bioassay showing that host root components--including chemical compounds exuding from the roots, root caps and root border cells--induce fungal hyphal branching. The increase in branching creates a greater potential for the fungus to find and attach to the host root surface.

Nagahashi and David D. Douds, an ERRC microbiologist, investigated how environmental factors, such as chemical compounds from host roots, blue light from the sun’s spectrum, and carbon dioxide, affect AM fungal growth, either individually or together.

Their techniques involved growing host roots in sterile culture and using sterile fungal spores to study various environmental factors individually or in combination. They found that these three factors--root chemicals, blue light and carbon dioxide--can all work independently to promote growth in AM fungi but are even more effective when applied together.

Read more about this research in the January 2006 issue of Agricultural Research magazine, available online at:
http://www.ars.usda.gov/is/AR/archive/jan06/root0106.htm

ARS is the U.S. Department of Agriculture's chief scientific research agency.
___________________________________________

* This is one of the news reports that ARS Information distributes to subscribers on weekdays.
* Start, stop or change an e-mail subscription at www.ars.usda.gov/is/pr/subscribe.htm
* NewsService@ars.usda.gov | www.ars.usda.gov/news
* Phone (301) 504-1638 | fax (301) 504-1486




Archive powered by MHonArc 2.6.24.

Top of Page