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...bleaching]], which reduces corals’ growth, [[fecundity]], and ability to [[photosynthesis|photosynthesize]]. Corals may take up to a year to recover from the bleachi ...nt 21:1219–1230.</ref> Prolonged exposure to high temperatures can cause [[photosynthesis]] to decline and can eventually cause [[coral bleaching|bleaching]]. Coral

...ht. All life on Earth depends on the energy received from the Sun and by [[photosynthesis]] this energy is converted into plant life and atmospheric oxygen. The [[fo

...molecules, cells, and tissues, the responses of those biological entities, photosynthesis, bioluminescence. In [[Photomedicine|medicine]], therapists employ various

..."Proline-Rich Peptide from the Coral Pathogen Vibrio shiloi That Inhibits Photosynthesis of Zooxanthellae." Applied Environmental Microbiology. 67 (2001): 1536-541.

* [[Photosynthesis]]

{{r|Photosynthesis}}

...ith frog muscle.</ref>, [[thermodynamics]]<ref>J. Mayer's proposition that photosynthesis is an energy conversion process</ref>, [[optics]]<ref>Ludvig von Helmholtz

...ious until later experiments, which delved into the process now known as [[photosynthesis]]. ...Senebier]] showed that [[carbon dioxide]] was absorbed by plants during [[photosynthesis]]. In 1804, [[Nicolas-Théodore de Saussure|Nicolas de Saussure]] discovere

...ious until later experiments, which delved into the process now known as [[photosynthesis]]. ...Senebier]] showed that [[carbon dioxide]] was absorbed by plants during [[photosynthesis]]. In 1804, [[Nicolas-Théodore de Saussure|Nicolas de Saussure]] discovere

...ntially sunlight converted into chemical energy with the help of plants' [[photosynthesis]]. Like wind and water derived power, this is indirect solar power and not

...ation-reduction reactions, energized by sunlight, mediate the process of [[photosynthesis]], which liberates oxygen from water through transfer of electrons to the c ...85615. | [http://books.google.com/books?id=pmLONFfMUBgC&dq=WILLIAM+Hopkins+photosynthesis&source=gbs_navlinks_s Google Books preview, in particular chapter introduci

...od of hundreds of years. Nearly ½ of all oxygen we breathe is generated by photosynthesis of marine plants. Approximately 48% of all carbon produced by burning fossi

...host coral, while the host receives the immense energetic benefits of the photosynthesis conducted by ''S. microadriaticum''. A similar relationship exists between ...struction of the pH gradient and hence, the organism’s ability to conduct photosynthesis. Without this process, both the ''S. microadriaticum'' and its host coral s

...ght-driven proton pump. This type of metabolism is not considered to be [[photosynthesis]] but rather [[photophosphorylation]], since it generates energy, but does ...c [[bacteria]] [[electron]] flow is cyclic, with all [[electron]]s used in photosynthesis eventually being transferred back to the single reaction center. A [[proto

...of life only became feasible after sufficient oxygen had been supplied by photosynthesis.

...its biomass comes from carbon dioxide absorbed from the atmosphere (see [[photosynthesis]]). Above ground, the trunk gives height to the leaf-bearing branches, aidi

...his field. Plant ecophysiology addresses such things as the response of [[photosynthesis]] and [[growth]] to environmental factors, while animal ecophysiology relat

*''[[Synechocystis]]'', a photosynthetic [[cyanobacteria]] widely used in [[photosynthesis]] research. ...lamydomonas reinhardtii]]'' - a unicellular [[green alga]] used to study [[photosynthesis]], [[flagella]] and [[motility]], regulation of [[metabolism]], cell-cell r

...(0.036–100%). There is a strong increase in the microalgal biomass during photosynthesis when CO2 is high. However, microalgal biomass increase also requires high l

...re [[heterotroph]]s. This means they do not fix their own carbon through [[photosynthesis]], but use carbon fixed by other organisms for [[metabolism]]. Fungi are no ...tes to the fungus sugars and other carbohydrates that it manufactures from photosynthesis, while the fungus donates water and mineral nutrients that the hyphal netwo

*[[Photosynthesis]] of [[chlorophyll]] plus water plus sunlight to form [[carbohydrates]] and

...from the [[Sun]]. This energy was captured by producers like plants with [[photosynthesis]], which is turn transferred to whatever animals eat them. ...on]], producing [[carbon dioxide]]; carbon dioxide is in turn required for photosynthesis. In this way, plants and animals rely on each other for the [[gases]] they

...en to be consumed unless it is produced rapidly (e.g., by oxygen-producing photosynthesis). Also, the relatively modest ultraviolet fluxes of many stars prevent rapi ...of free energy and the production of biomass and wastes. Oxygen-producing photosynthesis has simultaneously created large reservoirs of atmospheric oxygen, marine s

...]. In plants, nitrogen is used in [[chlorophyll]] which is essential for [[photosynthesis]] and further growth. However, the free nitrogen in the atmosphere is mostl

...NA]], and the behavior of [[complex system]]s. The emergence of oxygenic [[photosynthesis]] (around 3 billion years ago) and the subsequent emergence of an oxygen-ri * ''Producers'' -- usually plants that are capable of [[photosynthesis]] but could be such other organisms such bacteria living around ocean vents

[[photosynthesis]]

Aerosols also affect [[photosynthesis]] and agricultural production and, eventually, vegetative cover.

...</sub>, discriminates heavily against ^{<small>13</small>}C during photosynthesis, resulting in a highly depleted ^{<small>13</small>}C/<sup><small>1

...n is not produce therefore P. phosphoreum is known to have an [[anoxygenic photosynthesis]] [http://mrw.interscience.wiley.com/emrw/9780470015902/els/article/a000046

...t to produce [[adenosine triphosphate|ATP]], although no Archaea conduct [[photosynthesis]] with an [[electron transport chain]], as occurs in other groups.

.... Since biomass derives from plants generated by [[solar energy]] in the [[photosynthesis]] process, it can also be defined as the biological material on [[Earth]] t

...the energy for their growth and metabolism from the neighboring bacterias' photosynthesis.

...[[nucleic acids]] like [[DNA]] and [[RNA]], and a necessary element for [[Photosynthesis|photosynthetic organisms]], upon which nearly all Earth's living systems de

...the 'flag leaf' (last leaf) appears, as this leaf represents about 75% of photosynthesis reactions during the grain filling period, and so should be preserved from ...d Asia. Dwarfing genes enable the carbon that is fixed in the plant during photosynthesis to be diverted towards seed production, and they also help prevent the prob

...the 'flag leaf' (last leaf) appears, as this leaf represents about 75% of photosynthesis reactions during the grain filling period, and so should be preserved from ...d Asia. Dwarfing genes enable the carbon that is fixed in the plant during photosynthesis to be diverted towards seed production, and they also help prevent the prob

...[[pollutant]] in the traditional sense since it is essential to support [[photosynthesis]] for all plant life on [[Earth]]. However, carbon dioxide is a ''[[greenho

...|Anthony.Sebastian]] started earlier than Wednesday this week, beginning [[Photosynthesis]], which [[User:Chris Day|Chris Day]] importantly elaborated on and fine-tu

...nt is dependent on soil moisture. As a [[C4 plant]] (a plant that uses C4 photosynthesis), maize is a considerably more water-efficient crop than [[C3 plant]]s like

...Earth's pent-up energy, whether geothermal or, following the invention of photosynthesis, solar.

...ondria, and convert solar energy into a [[chemical energy]] ("food") via [[photosynthesis]]. Like mitochondria, chloroplasts have their own genome. Chloroplasts ar

...started and worked on three articles since the last Write-a-Thon, namely [[Photosynthesis]], [[Cognitive science]] and [[Hormesis]]. He may ask that they count somet

...n to other organelles. [[Chloroplast]]s produce energy from [[light]] by [[photosynthesis]]. They were also originally symbiotic bacteria.

...scales of importance to biology range from the extremely fast processes of photosynthesis to the billions of years of living evolution on Earth. Relevant spatial sc ...or too small (molecular structure); too slow (macroevolution) or too fast (photosynthesis); too remote in time (early extinctions) or too remote in space (life at ex

...nts use light energy to convert water and carbon dioxide into glucose by [[photosynthesis]]. If the oxygen in the water is labeled, then the label appears in the oxy

...mples include many enzymes and biological systems involved in for instance photosynthesis, transport of nutrients into cells, the responses of cells to stimuli, and

...mples include many enzymes and biological systems involved in for instance photosynthesis, transport of nutrients into cells, the responses of cells to stimuli, and

...nism)|plants]] which were generated by utilizing [[solar energy]] in the [[photosynthesis]] process, it can also be defined as the organic material on [[Earth]] that

...bases. In some cases, the roots have chlorophyll organs that can sustain [[photosynthesis]] when the plants lose their leaves. The roots vary in thickness, from very ...ome species of myco-heterotrophs orchids will never be capable of adequate photosynthesis and remain dependent upon this fungus throughout their lives. As always wit

...bases. In some cases, the roots have chlorophyll organs that can sustain [[photosynthesis]] when the plants lose their leaves. The roots vary in thickness, from very ...ome species of myco-heterotrophs orchids will never be capable of adequate photosynthesis and remain dependent upon this fungus throughout their lives. As always wit

...not a pollutant in the traditional sense since it is essential to support photosynthesis for all plant life on Earth. However, carbon dioxide is a ''[[greenhouse ga