Right now, the only possibility of large - scale removal of greenhouse gases from the atmosphere is
through plant photosynthesis and related land - based carbon sequestration activities.
Atmospheric carbon is transferred from the atmosphere to soil carbon stores
through plant photosynthesis and subsequent formation of secondary carbonates.
Not exact matches
Increased levels of CO2 accelerate
plant growth, which causes more absorption of CO2
through photosynthesis.
The fungi in turn gain carbohydrates generated
through the
plant's
photosynthesis.
The imaging system detects fluorescence emitted from chlorophyll, a pigment that gives
plants their green color and is essential for absorbing the sunlight
plants use to create energy
through photosynthesis.
The fungi coexists on the
plant's roots where it is supplied with sugar, and the
plant receives energy from the fungi rather than
through photosynthesis.
Nitrogen availability influences how much CO2
plants are able to acquire
through photosynthesis, and hence it impacts the carbon balance.
That's a key question because
through photosynthesis, land
plants currently take up about a quarter of the CO2 humans add to the atmosphere each year, sequestering it as wood and as soil carbon.
«For each carbon dioxide molecule that is incorporated into
plants through photosynthesis,
plants lose about 200 hundred molecules of water
through their stomata,» explains Julian Schroeder, a professor of biology who headed the research effort.
or stomata, the tiny openings on the leaf surface
through which
plants absorb gases needed for
photosynthesis, can provide clues to land elevation over time.
In a new study on the Pacific Coast, Nyssa Silbiger, former UCI postdoctoral researcher, and Cascade Sorte, assistant professor of ecology & evolutionary biology, determined that marine
plants and seaweeds decrease the acidity of their surroundings
through photosynthesis.
These findings show that the evolutionary step of loss of
photosynthesis is not simply a loss of functions
through loss of chloroplast: it dramatically changes the
plant's relationship with other organisms.
Plants use solar energy for growth
through a process known as
photosynthesis.
Engineered
plants conserve 25 percent more water by only partially opening their mouth - like stomata, allowing less water to escape
through transpiration while carbon dioxide enters the
plant to fuel
photosynthesis.
Stomata are the gatekeepers to
plants: When open, carbon dioxide enters the
plant to fuel
photosynthesis, but water is allowed to escape
through the process of transpiration.
«Unlike most
plants that get energy
through photosynthesis, dodder siphons off water and nutrients from other
plants by connecting itself to the host vascular system using structures called haustoria.
«Like most
plants, wheat photosynthesises
through its leaves, but we've discovered there is also
photosynthesis in the seed.
To make things even fuzzier, the CO2 concentration in Hawaii quickly dipped below 400 ppm as
plants greened during the Northern Hemisphere's growing season, soaking up CO2
through photosynthesis.
Plants, for the most part, adopt a different feeding, or «trophic,» strategy, making their own food
through photosynthesis.
Scientists assumed leaves at the top of a
plant would be the best at turning higher levels of light into carbohydrates —
through the process of
photosynthesis — while the lower shaded leaves would be better at processing the low light levels that penetrate the
plant's canopy of leaves.
Plants, some bacteria, and certain other organisms collect energy from sunlight
through a process called
photosynthesis.
In the springtime, there is a dramatic removal of carbon from the atmosphere as
plants absorb carbon dioxide, using it
through photosynthesis to fuel their growth.
«They allow us to look into relationships between SIF and the gross primary production (GPP)-- the amount of carbon fixed by
plants through photosynthesis — at scales never explored before.»
Like all
plants, mangroves fix carbon dioxide from the air
through photosynthesis and return organic material to the soil when they decompose.
The process works
through a mixture of steps using nanowires and bacteria that work together to mimic the
photosynthesis process that
plants use to turn carbon dioxide into food and the byproduct, oxygen.
As
plants take in carbon dioxide for
photosynthesis, they release water
through evapotranspiration from their leaf pores, which helps them cool down in the hot sun, much as human sweat cools us down.
These chemicals are known as «biomarkers,» and the discovery of O2 in one of these distant atmospheres may lead us to believe that something biological is producing the molecule, as
plants do on Earth
through photosynthesis.
chloroplast A tiny structure in the cells of green algae and green
plants that contain chlorophyll and creates glucose
through photosynthesis.
You have of course solar energy, which we know today, but also
through photosynthesis all of the fossil fuels depend on the power of the sun being trapped in these
plants.
Some microbes in the lake extract carbon — a necessity for life — from carbon dioxide, performing the same service that green
plants do
through photosynthesis.
However,
through the process of
photosynthesis, office
plants can absorb the carbon dioxide and release oxygen reducing air pollution, stress, and a short attention span.
Chlorophyll is essential to
photosynthesis — the process
through which
plants convert carbon dioxide to oxygen — and is also used in a variety of foods and beverages for the green coloring which is provides.
Plants absorb sunlight, convert it
through the process of
photosynthesis, and store it as chemical energy.
This is because the amount of CO2 released from E85 during combustion is practically identical to the level of carbon dioxide the
plants absorbed from the atmosphere
through photosynthesis when they were growing.
Plants create energy from light
through photosynthesis: an absorption of energy
through green pigment.
Through a process known as
photosynthesis, most
plants use the energy in sunlight to convert carbon dioxide from the atmosphere, plus water, into simple sugars, which are used as building blocks and form the main structural components.
is lost
through the stomata where carbon dioxide enters If its hot the
plants will close the stomata to keep from loosing water but photosynthesis will slow down due to the lack of carbon dioxide Some plants that live in dry areas have special ways to save water and carry out photosynthesis C4 Plants Have a special chemical pathway that gets carbon dioxide into the Ca
plants will close the stomata to keep from loosing water but
photosynthesis will slow down due to the lack of carbon dioxide Some
plants that live in dry areas have special ways to save water and carry out photosynthesis C4 Plants Have a special chemical pathway that gets carbon dioxide into the Ca
plants that live in dry areas have special ways to save water and carry out
photosynthesis C4
Plants Have a special chemical pathway that gets carbon dioxide into the Ca
Plants Have a special chemical pathway that gets carbon dioxide into the Calvin /
There are a lot of hypothetical deliberations on where this «missing» CO2 is going: into increased terrestrial
plant photosynthesis or soil absorption, dissolved into the ocean, where it is buffered chemically or converted by
photosynthesis from phytoplankton, entering the food chain and possibly getting converted to carbonates that eventually end up on the ocean floor, into limestone
through weathering or dissipated into space, etc..
Plant life on land and in the oceans store chemical energy
through a process scientists call «
photosynthesis».
While it takes anywhere from months to decades for
plants to sequester carbon
through photosynthesis, combustion and release of carbon's combustion product, carbon dioxide, happens in seconds.
Unlike fossil fuels, however, the
plant sources of bioenergy sequester carbon,
through photosynthesis.
Plants - Through photosynthesis, plants absorb carbon and convert it to organic compounds (their
Plants -
Through photosynthesis,
plants absorb carbon and convert it to organic compounds (their
plants absorb carbon and convert it to organic compounds (their food).
net primary production the increase in
plant biomass or carbon of a unit of a landscape; gross primary production (all carbon fixed
through photosynthesis) minus
plant respiration equals net primary production
Press Release 13 - 139 Seasonal carbon dioxide range expanding as more is added to Earth's atmosphere Northern Hemisphere land - based ecosystems «taking deeper breaths,» scientists find Levels of carbon dioxide in the atmosphere rise and fall each year as
plants,
through photosynthesis and respiration, take up the gas in spring and summer, and release it in fall...
Plants absorb this released CO2 and convert it into biomass
through photosynthesis.
Instead of converting CO2 into something edible, they thought about the process of how
plants use sunlight and water to create their own food, eventually finding a way to replicate this process
through artificial
photosynthesis.
Through photosynthesis,
plants are able to harvest solar energy and convert it to chemical energy.
Approximately half the total gross
photosynthesis is assumed to be lost
through plant respiration, and the rest is available for growth.
Through the process of
photosynthesis, chlorophyll in
plants captures the sun's energy by converting carbon dioxide from the air and water from the ground into carbohydrates — complex compounds composed of carbon, hydrogen, and oxygen.
Because of that, in any healthy
plant over the course of a year, it draws down far more CO2
through photosynthesis then it produces by oxidizing sugars.