Big Chemical Encyclopedia

Chemical substances, components, reactions, process design ...

Articles Figures Tables About

Photosynthesis units

Hydrosphere. Poorly buffered against chemical changes moderate O2 availability low water availability because of high osmotic potential of seawater low ratios of biomass/unit area and photosynthesis/unit area (because of little light below the surface) low temperatures low essential elements (especially P and Fe) high NaCl. [Pg.19]

Aragonite. Calcium carbonate is a common deposit in shallow tropical waters as a constituent of muds, or in the upper part of coral reefs where it precipitates from carbon dioxide-rich waters supersaturated with carbonate from intense biological photosynthesis and solar heating. Deposits of ooHtic aragonite, CaCO, extending over 250,000 km in water less than 5 m deep ate mined for industrial purposes in the Bahamas for export to the United States (19). [Pg.285]

Starch is stored in plant cells in the form of granules in the stroma of plas-tids (plant cell organelles) of two types chloroplasts, in which photosynthesis takes place, and amyloplasts, plastids that are specialized starch accumulation bodies. When starch is to be mobilized and used by the plant that stored it, it must be broken down into its component monosaccharides. Starch is split into its monosaccharide elements by stepwise phosphorolytic cleavage of glucose units, a reaction catalyzed by starch phosphorylase (Figure 7.23). This is formally an a(1 4)-glucan phosphorylase reaction, and at each step, the prod-... [Pg.228]

About 8(1 percent of the electric energy used in the United States is derived from stored energy in coal. The stored energy has its origin in photosynthesis. Coal is the end product of the accumulation of plant matter in an oxygen-deficient environment where burning is thwarted. Formation takes millions of years. Proven reseiwes of coal in the United States are upwards of 500 billion tons, a reserve so great that even if coal continues to be burned at a rate of over one billion tons per year, the reserves will last for hundreds of years. [Pg.1096]

Chlorophyll a, the green photosynthesis pigment, is the prototype of the chlorin (2,3-dihydro-porphyrin) class of products. It was first isolated by Willstatter1 at the turn of the century. The common structural unit in this class is the chlorin framework named after chlorophyll. The chromophore with a partially saturated pyrrole ring, which is formally derived from the completely unsaturated porphyrin, is less symmetric than the latter and systematically named according to IUPAC nomenclature as 2,3-dihydroporphyrin. [Pg.614]

As shown in Fig. 10-13, there is also a flux of O2 produced during net photosynthesis from the ocean to the atmosphere and an export flux of particulate and dissolved organic matter out of the euphotic zone. For a steady-state system, new production should equal the flux of O2 to the atmosphere and the export of organic carbon (Eppley and Peterson, 1979) (when all are expressed in the same units, e.g., moles of carbon). Such an ideal state probably rarely exists because the euphotic zone is a dynamic place. Unfortunately, there have been no studies where all three fluxes were measured at the same time. Part of the difficulty is that each flux needs to be integrated over different time scales. The oxygen flux approach has been applied in the subarctic north Pacific (Emerson et al, 1991) and subtropical Pacific (Emerson et al, 1995, 1997) and Atlantic (Jenkins and Goldman, 1985). The organic carbon export approach has... [Pg.248]

Photosynthesis and gas exchange of leaves are affected by many stresses including drought, flooding, salinity, chilling, high temperature, soil compaction and inadequate nutrition. Many, but not all, of these stresses have symptoms in common. For example, stomatal conductance and the rate of assimilation of CO2 per unit leaf area often decrease when stress occurs. Further, it is possible that several of the stresses may exert their effects, in part, by increasing the levels of the hormone abscisic acid (ABA) in the leaf epidermis. This hormone is known to close stomata when applied to leaves. [Pg.47]

Polysaccharides formed from a-glucose are called starches. A starch stores sugar until it is needed for energy production. Three important starches are glycogen, which animals produce in their livers, and amylose and amylopectin, produced by plants through photosynthesis. On average, plant starch is about 20% amylose and 80% amylopectin. Each of these polysaccharides contains glucose as its monomer, but they differ in how the monosaccharide units are linked. [Pg.928]

Carbohydrates are the most abundant, weight-wise, organic material available. Photosynthesis produces about 400 billion tons annually. The polysaccharides are generally composed of mono- and disaccharide units. [Pg.426]

The photosynthetic apparatus in green plants and algae is located in the chloroplast, which is a flattened, double-membraned structure about 150-200 A thick/4,5 The two flat membranes lie one above the other and are united at their peripheries. These double-membraned structures have been termed thylakoids (from the Greek sacklike )/ Each membrane of the thylakoid consists of a water-insoluble lipoprotein complex which contains the light-absorbing chlorophyll and other pigments utilized in photosynthesis. [Pg.282]

Note that the chlorophyll molecules are all not identical in the photosynthesis apparatus. Many molecules in a collecting unit absorb light so that a large volume... [Pg.213]

Because the reaction requires energy from light, it is known as photosynthesis. The equation looks simple but photosynthesis is anything but that. The structures that are responsible for absorption of light in order for its energy to be used are the chlorophylls, which contain porphyrin-type ligands. The porphyrin structure is derived from the basic unit known as porphin, shown in Figure 22.16. [Pg.805]

Ozone causes both quantitative and qualitative changes in carbon dioxide fixation patterns. Wilkinson and Bames, using carbon dioxide-found a reduction in radioactivity in soluble sugars and increases in free amino acids and sugar phosphates in white pine after a 10-min exposure to ozone at 0.10 ppm. Miller observed a decrease in carbon dioxide-fixation in ponderosa pines that correlated with loss of chlorophyll, after exposure to ozone at 0.30-0.35 ppm. The Hill reaction rates of chloroplasts isolated from healthy and ozone-injured ponderosa pine indicated that both light and dark reactions of the chloroplasts from ozone-injured plants were depressed. Barnes found depressed photosynthesis and stimulated respiration in seedlings of four pine species of the southeastern United States after exposure to ozone at 0.15 ppm. [Pg.448]

Johann Deisenhofer Germany and United States, b. Germany photosynthesis... [Pg.411]


See other pages where Photosynthesis units is mentioned: [Pg.81]    [Pg.391]    [Pg.19]    [Pg.81]    [Pg.391]    [Pg.19]    [Pg.80]    [Pg.3031]    [Pg.1048]    [Pg.28]    [Pg.30]    [Pg.153]    [Pg.215]    [Pg.437]    [Pg.2132]    [Pg.1048]    [Pg.716]    [Pg.894]    [Pg.205]    [Pg.160]    [Pg.177]    [Pg.85]    [Pg.22]    [Pg.133]    [Pg.219]    [Pg.87]    [Pg.361]    [Pg.147]    [Pg.246]    [Pg.164]    [Pg.116]    [Pg.56]    [Pg.166]    [Pg.76]    [Pg.227]    [Pg.230]   
See also in sourсe #XX -- [ Pg.391 , Pg.420 ]




SEARCH



Photosynthesis photosynthetic unit

© 2024 chempedia.info