Through a magical process
called photosynthesis, trees suck CO2 out of the air, turn the C into cellulose (wood), and release the O2 (oxygen) back into the air.
It begins with a process
called photosynthesis that absorbs sunlight and breathes carbon dioxide (CO2).
It's
called photosynthesis.
This process is
called photosynthesis, which translated means «putting together with light.»
Just like plants, cyanobacteria can produce energy out of sunlight, via the process
called photosynthesis.
This process is
called photosynthesis (Foh - toh - SIN - thuh - sis).
Chloroplasts capture light energy to conserve free energy in the form of ATP and reduce NADP to NADPH through a complex set of processes
called photosynthesis.
When you are dealing with an enormous energy source such as the Sun, or even the small fraction
called photosynthesis, the oil field analogies aren't helpful, I think.
Phytoplankton are tiny organisms that are critical in offsetting climate change because they undergo a process
called photosynthesis, whereby they absorb large enough amounts of heat - trapping carbon dioxide to cool Earth's warming environment while releasing much of oxygen we breathe.
In a process
called photosynthesis, light energy is used to produce biochemical energy and the oxygen we breathe.
Plants, some bacteria, and certain other organisms collect energy from sunlight through a process
called photosynthesis.
A team of University of Illinois at Urbana — Champaign (U.I.U.C.) physicists has assembled a supercomputer consisting of several hundred superfast graphics processing units (GPUs)-- typically used for rendering highly sophisticated video game graphics — that they think will help them build a simulation depicting how chromatophore proteins turn light energy into chemical energy, a process
called photosynthesis.
This process
called photosynthesis sustains almost all life on Earth.
Plants convert carbon dioxide to oxygen during a process
called photosynthesis, using both the carbon and the oxygen to construct carbohydrates.
We call it photosynthesis and plants have been doing it for billions of years.
Not exact matches
In
photosynthesis, light strikes colored molecules that are embedded within proteins
called light - harvesting antenna complexes.
For example, in a recent Nature Physics paper, physicist Neill Lambert of the Advanced Science Institute in Japan
called out new
photosynthesis research as remarkable just for suggesting quantum effects can happen in biological systems at room temperature.
These partners are
called heterotrophs, since they rely on the anammox bacteria — which are primary producers (or autotrophs), like plants capable of
photosynthesis — to turn atmospheric carbon dioxide into organic carbon.
One such effect,
called bleaching, occurs when the symbiotic algae that are essential for providing nutrients to the coral either lose their identifying photosynthetic pigmentation and their ability to perform
photosynthesis or disappear entirely from the coral's tissue.
Photosynthesis, the process by which plants, algae, and select bacteria convert the sun's light energy into chemical energy, takes place in a cellular organelle
called the chloroplast.
«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.
Forests remove carbon from the air during
photosynthesis and store it in wood and roots, making these forests what scientists
call carbon sinks.
At Carnegie, he designed a system to identify Chlamydomonas mutants that are impaired in a process
called nonphotochemical quenching (NPQ), which evolved because plants often absorb more light energy than can be used for
photosynthesis.
Since the 1950s, biologists have known that photosynthetic cyanobacteria make microcompartments,
called carboxysomes, which house an important
photosynthesis enzyme.
To make up for having their roots exposed, some lineages adopted a kind of water - saving
photosynthesis called crassulacean acid metabolism that likely helped them survive only on fog and rain; it increased their diversification rate by a remarkable 20.3 %.
And, you know, biological
photosynthesis, you know, which is this miraculous, incredible thing that we're still — there was this great book, was
called Eating the Sun, talked about current understanding.
Iron encourages the bloom of tiny algae
called phytoplankton, which take in carbon dioxide (CO2) dissolved in the ocean for
photosynthesis; that process in turn draws atmospheric CO2 into the surface waters.
This micrograph image of an oak leaf ¹ s surface reveals bunches of tiny hairs
called trichomes, which concentrate light for
photosynthesis and reduce water loss.
Living organisms — especially marine plants
called phytoplankton — require nitrogen in processes such as
photosynthesis.
Many plants use a group of chemicals
called sinapate esters to defend against the sun while they absorb light for
photosynthesis.
Get your science news at www.ScientificAmerican.com or you can check out the multimedia look at artificial
photosynthesis based on an article in the current issue of Scientific American
called [«Reinventing the Leaf»].
Using nondestructive neutron scattering techniques, scientists are examining how single - celled organisms
called cyanobacteria produce oxygen and obtain energy through
photosynthesis.
The goal is a biofuel — or electrofuel, as this new approach is
called — that doesn't require
photosynthesis.
So all the sugars and everything that is generated by
photosynthesis are basically translocated to these so -
called sinks.
But just to simplify, it is in these fireworks inside the mitochondria, where the oxygen we breathe may get a hold of an electron we ate that was pumped with energy by plants (thanks to
photosynthesis), and transform that oxygen molecule into what's
called superoxide, which can damage our delicate cellular machinery — oxidize our cellular machinery.
Secular Animist: «I'd point out that humanity has always depended on what you
call a «low quality» energy source for all of our food — which is solar energy transformed into chemical energy by
photosynthesis.»
Others include the fact that many plants have evolved a trick for concentrating CO2,
called C4
photosynthesis, so higher levels make little difference to them, and that in the tropics very high temperatures can impede growth.
I'd point out that humanity has always depended on what you
call a «low quality» energy source for all of our food — which is solar energy transformed into chemical energy by
photosynthesis.
Human civilization has depended on our ability to «gather» solar energy through
photosynthesis for millennia — this is
called «agriculture» — and today's solar thermal and photovoltaic technologies make it VERY easy to gather solar energy for electricity, water and space heating, etc..
Plant life on land and in the oceans store chemical energy through a process scientists
call «
photosynthesis».
and there are living things that release pollution into the ocean
called «smokers» they are plants that don't use
photosynthesis because they are very far underneath the ocean.
Choice 5: Does the fact that life on this planet has survived a billion years of climate change caused by orbital mechanics, asteroids, the evolution of
photosynthesis, plate tectonics, the variable star we
call the sun, chaos, plagues, and possibly supernovae.
One interesting technology is often
called an artificial leaf, because it uses light energy not to generate electricity directly (photovoltaics) but to synthesize fuel or fuel precursors from carbon dioxide in the atmosphere and other inputs (
photosynthesis).
More than 40 years ago, scientists discovered that one of the proteins involved in
photosynthesis,
called Photosystem 1 (PS1), continued to function when it was extracted from plants like spinach.
One proposed solution to the first question involves the outgassing of massive amounts of carbon dioxide by volcanoes, which could have warmed the planetary surface rapidly by enhancing the planet's so -
called greenhouse effect, especially given that major carbon dioxide sinks (rock weathering and
photosynthesis) would have been dampened by a frozen Earth.