 |
|
Tropical plants go with the flow ... of nitrogen
May 08, 2007Stanford, CA - Tropical plants are able to adapt to environmental change by extracting nitrogen from a variety of sources, according to a new study that appears in the May 7 early online edition of The Proceedings of the National Academy of Sciences.
By demonstrating that not all plants specialize in one specific source of nitrogen, the result turns a commonly held theory on its head. It also provides a dose of optimism that tropical forests will be able to withstand environmental shifts in nutritional cycles brought on by global climate change.
Nitrogen is an essential nutrient that plants must absorb from the soil to survive. Most land plants outside the tropics appear to have evolved to rely on just one of three common sources of nitrogen: nitrate (NO3-), ammonium (NH4+), or dissolved organic nitrogen (DON). As a result of this limitation, they usually inhabit "niches" defined largely by the available nitrogen source. When that source crashes for any reason—often because of shifts in climate—the plants cannot adapt, with potentially disastrous consequences for natural ecosystems.
However, tropical species appear to be far more adaptable than their temperate kin when it comes to their nitrogen needs. A team of researchers* has found that, when confronted with shifts in nitrogen availability, these plants simply "flip a switch" and use whatever is handy.
"When it comes to nitrogen, the tropical plants we studied behave like kids at a pizza party—they may prefer pepperoni, but if only plain cheese is available, they'll still have a slice," said lead author and postdoctoral researcher Benjamin Houlton of the Carnegie Institution's Department of Global Ecology. "This result gives a glimmer of hope that tropical ecosystems may have the capacity to adjust to certain aspects of climate change."
Working in six well-known sites with variable rainfall on Hawaii's Maui Island, the researchers measured the soil content of nitrate, ammonia, and dissolved organic nitrogen. They also determined each source's relative contribution to the growth of a variety of plant species, from small floor-dwelling shrubs, to tree ferns, to tall canopy trees.
In dry areas, nitrate was most readily available, while in wetter areas, ammonium was the dominant source. The plants made use of whichever of these two sources was most common in their native soil. Dissolved organic nitrogen was plentiful, but did not make a significant contribution to plant growth at any of the sites.
To examine the plants' nutritional response to climate change, the researchers combined new measures and models of variations in the atomic masses of nitrogen compounds that occur naturally in plants and soils. By examining these different masses, known as isotopic ratios, across different rainfall climates, they discovered an abrupt shift in the nitrogen cycle and in the nutritional strategies of entire forest communities.
"It really is quite striking; once the soil gets wet and nitrate drops below a certain threshold, the tropical plants all begin using ammonium in near-perfect unison," Houlton explains. "If these diverse plant species can be flexible in their nitrogen metabolism—thought to be non-negotiable in many temperate ecosystems—then maybe they can react to other environmental stresses just as gracefully. Still, our results will need further testing in vast areas of the tropics before we will know how well they truly represent the entire ecosystem."
Carnegie Institution
However, tropical species appear to be far more adaptable than their temperate kin when it comes to their nitrogen needs. A team of researchers* has found that, when confronted with shifts in nitrogen availability, these plants simply "flip a switch" and use whatever is handy.
"When it comes to nitrogen, the tropical plants we studied behave like kids at a pizza party—they may prefer pepperoni, but if only plain cheese is available, they'll still have a slice," said lead author and postdoctoral researcher Benjamin Houlton of the Carnegie Institution's Department of Global Ecology. "This result gives a glimmer of hope that tropical ecosystems may have the capacity to adjust to certain aspects of climate change."
Working in six well-known sites with variable rainfall on Hawaii's Maui Island, the researchers measured the soil content of nitrate, ammonia, and dissolved organic nitrogen. They also determined each source's relative contribution to the growth of a variety of plant species, from small floor-dwelling shrubs, to tree ferns, to tall canopy trees.
In dry areas, nitrate was most readily available, while in wetter areas, ammonium was the dominant source. The plants made use of whichever of these two sources was most common in their native soil. Dissolved organic nitrogen was plentiful, but did not make a significant contribution to plant growth at any of the sites.
To examine the plants' nutritional response to climate change, the researchers combined new measures and models of variations in the atomic masses of nitrogen compounds that occur naturally in plants and soils. By examining these different masses, known as isotopic ratios, across different rainfall climates, they discovered an abrupt shift in the nitrogen cycle and in the nutritional strategies of entire forest communities.
"It really is quite striking; once the soil gets wet and nitrate drops below a certain threshold, the tropical plants all begin using ammonium in near-perfect unison," Houlton explains. "If these diverse plant species can be flexible in their nitrogen metabolism—thought to be non-negotiable in many temperate ecosystems—then maybe they can react to other environmental stresses just as gracefully. Still, our results will need further testing in vast areas of the tropics before we will know how well they truly represent the entire ecosystem."
Carnegie Institution
Nitrogen Current Events and Nitrogen News RSSSwitchgrass Produces Biomass Efficiently
A USDOE and USDA study concluded that 50 million U.S. acres of cropland, idle cropland, and cropland pasture could be converted from current uses to the production of perennial grasses, such as switchgrass, from which biomass could be harvested for use as a biofuel feedstock.
Nitrogen loss threatens desert plant life, study shows
As the climate gets warmer, arid soils lose nitrogen as gas, reports a new Cornell study. That could lead to deserts with even less plant life than they sustain today, say the researchers.
Air pollution increases infants' risk of bronchiolitis
Infants who are exposed to higher levels of air pollution are at increased risk for bronchiolitis, according to a new study.
USC study finds big air pollution impacts on local communities
Heavy traffic corridors in the cities of Long Beach and Riverside are responsible for a significant proportion of preventable childhood asthma, and the true impact of air pollution and ship emissions on the disease has likely been underestimated, according to researchers at the University of Southern California (USC).
Iron controls patterns of nitrogen fixation in the Atlantic
Scientists including researchers from the National Oceanography Centre, Southampton and the University of Essex have discovered that interactions between iron supply, transported through the atmosphere from deserts, and large-scale oceanic circulation control the availability of a crucial nutrient, nitrogen, in the Atlantic.
Wolves, moose and biodiversity: An unexpected connection
Moose eat plants; wolves kill moose. What difference does this classic predator-prey interaction make to biodiversity?
North America automobile sector bottom of 'world sustainability league'
The study, entitled Sustainable Value in Automobile Manufacturing, looks at the sustainability performance of 17 leading car manufacturers worldwide between 1999 and 2007.
Interactions with aerosols boost warming potential of some gases
For decades, climate scientists have worked to identify and measure key substances -- notably greenhouse gases and aerosol particles -- that affect Earth's climate.
Designer molecule detects tiny amounts of cyanide, then glows
A small molecule designed to detect cyanide in water samples works quickly, is easy to use, and glows under ultraviolet or "black" light.
Report examines hidden costs of energy production and use
A new report from the National Research Council examines and, when possible, estimates "hidden" costs of energy production and use -- such as the damage air pollution imposes on human health -- that are not reflected in market prices of coal, oil, other energy sources, or the electricity and gasoline produced from them.
More Nitrogen Current Events and Nitrogen News Articles
 |
The World's Greatest Fix: A History of Nitrogen and Agriculture by G. J. Leigh (Author) In the tradition of Jared Diamond's Guns, Germs, and Steel, this gives the very early history of how human ingenuity overcame the risk of famine through productive agriculture. Starting with a layman's guide to the chemistry of nitrogen fixation, the book goes on to show how humans emerged from nomadic lifestyles and began developing towns and settlements. When they for the first time began planting the same fields year after year, they noticed quickly the need to ensure soil fertility. But how? The method they came up with is still in use to this day. |
 |
Thermo Scientific Transfer Vessels for Liquid Nitrogen, 5L Capacity by Thermo Scientific Features of the Thermo Scientific Transfer Vessels for Liquid Nitrogen: For safe and efficient storage and handling of liquid nitrogen. Dia. x Height: 8.8 x 18.2 in. (22.4 x 46.2cm). Neck Diameter: 2.2 in. (5.6cm). Static Evap. Rate: 5 oz. Static Holding Time: 33.3 days. Weight Full: 17 lb. (7.7kg). Weight Empty: 8 lb. (3.6kg). The product referenced on this detail page is sold be Each. |
 |
Pure Energy Fixed - 5 Year N2 Tank - 48ci 3000psi by Pure Energy Get ready to play year round with no troubles, it's time to put the C02 away and go with nitrogen. Features: Consistent Flow Technology piston Mil-spec Belleville springs Dual safety rupture plugs for both bottle and downstream safety Mechanical gauge Nickel plated brass bonnet Certified fill nipple and dual locking set screws Preset at 850 psi Approximately 500 shots per fill 5 year hydro test date Note: This tank DOES have a TC Stamp |
 |
Nitrogen Air Tank 10lb Aluminum by KegWorks This tank is perfect for Guinness! This is a mixed gas tank featuring a siphon tube that extends 3/4 down the tank. This siphon tube ensures that gas is maintains the correct mixture needed for a perfect pint of Guinness. This Nitrogen cylinder is produced from high strength aluminum alloy. Enjoy the benefits of aluminum tanks - lighter than steel tanks, and do not rust! A nitrogen gas regulator is required. In stock and ready to ship. Features: Made of high quality aluminum. For serving Guinness. . . . . Specs: Dimensions: 20"H x 7"D. Weight: 14.25 ib. 20-Cubic foot capacity. Dispense 3 - 4 half kegs. 1800 service rating. |
 |
Espoma Organic Traditions Urea Nitrogen Fertilizer 45-0-0 - 5 lb Bag #UR5 by Espoma 5 LB, 45-0-0, Urea Fertilizer, Source Of Nitrogen Fertilizer, Promotes Green Color & Rapid Growth, Improves Yield & Enhances Quality Of Crops. |
 |
Uniweld RHP400 400 PSI Nitrogen Regulator by Uniweld Uniweld 400 PSI Nitrogen Regulator is designed for purging and pressure testing with high pressures. It features large T handles for easy pressure adjustment and A CGA580 inlet and quarter inch flare outlet connection. This tool also includes easy to read 2 inch gauge and is made of heavy duty brass construction. This tool which is for use with nitrogen is backed by a 2 year warranty on material and workmanship. |
 |
Nitrogen (True Books) by Salvatore Tocci (Author) Ideal for today's young investigative reader, each A True Book includes lively sidebars, a glossary and index, plus a comprehensive "To Find Out More" section listing books, organizations, and Internet sites. A staple of library collections since the 1950s, the new A True Book series is the definitive nonfiction series for elementary school readers. |
 |
Osmolite HN High Nitrogen Liquid Nutrition, by Ross Nutritional - 8 Oz x 24Cans/Case by ROSS NUTRITIONAL. INDICATIONS: Osmolite HN High Nitrogen Liquid Nutrition - OSMOLITE HN PLUS is a high-nitrogen, low-residue liquid formula for tube-fed patients who may benefit from a moderate increase in protein and caloric density. The Total calorie/nitrogen (Cal/N) ratio of OSMOLITE HN (135:1) has been demonstrated to maintain nitrogen balance in long-term tube-fed patients.1 The amino acid profile of the protein system in OSMOLITE HN meets or surpasses the standard amino acid profile for high-biologic-value protein. For patients requiring 1200 or more calories per day For patients requiring acute-care or chronic tube feedings For patients sensitive to hyperosmolar feedings.FEATURES Complete, balanced nutrition For sole-source nutrition For oral or tube feeding Provides 100% of the RDI for 24 key... |
 |
Nitrogen Stainless Steel Men's Link Necklace Chain 36" by Titanium Kay |
 |
Smith Ultra High Pressure Regulator Purging Nitrogen 2,000 PSI by Smith Equipment SMITH EQUIPMENT# 825-00-09 Ultra high pressure heavy duty regulator. This high pressure regulator is for use on cylinders with a wide variety of non-corrosive inert gases. Piston sensor design gives structural reliability in high pressure use. Low torque control adjusting screw permits easy adjustmnet of pressures in closed or dead end systems. Nitrogen regulator. Typical applications High pressure testing Purging and charging Calibration kits Airline charging kits Chemical plants Manufacturing processes Research and development Laboratories Specs Max inlet pressure 6,000 PSIG Delivery Pressure 0-2,000 PSI Inlet gauge 0-10,000 psi / Graduations 200 PSI Delivery gauge 0-3,000 psi / Graduations 100 PSI Inlet fitting CGA 580 Outlet No fitting. Standard 1/4" NPT in regulator... |
| © 2009 BrightSurf.com |