Primary production, effect

Homogeneous Sonochemistry Bond Breaking and Radical Formation. The chemical effect of ultrasound on aqueous solutions have been studied for many years. The primary products are H2O2 there is strong evidence for various high-energy intermediates, including HO2,... 

The effect of butene isomer distribution on alkylate composition produced with HF catalyst (21) is shown in Table 1. The alkylate product octane is highest for 2-butene feedstock and lowest for 1-butene isobutylene is intermediate. The fact that the major product from 1-butene is trimethylpentane and not the expected primary product dimethylhexane indicates that significant isomerization of 1-butene has occurred before alkylation. 

Methylene chloride is one of the more stable of the chlorinated hydrocarbon solvents. Its initial thermal degradation temperature is 120°C in dry air (1). This temperature decreases as the moisture content increases. The reaction produces mainly HCl with trace amounts of phosgene. Decomposition under these conditions can be inhibited by the addition of small quantities (0.0001—1.0%) of phenoHc compounds, eg, phenol, hydroquinone, -cresol, resorcinol, thymol, and 1-naphthol (2). Stabilization may also be effected by the addition of small amounts of amines (3) or a mixture of nitromethane and 1,4-dioxane. The latter diminishes attack on aluminum and inhibits kon-catalyzed reactions of methylene chloride (4). The addition of small amounts of epoxides can also inhibit aluminum reactions catalyzed by iron (5). On prolonged contact with water, methylene chloride hydrolyzes very slowly, forming HCl as the primary product. On prolonged heating with water in a sealed vessel at 140—170°C, methylene chloride yields formaldehyde and hydrochloric acid as shown by the following equation (6). 

Thus if combustion can be effected in two stages, with or without the intermediate heat rejection for thermal NO control discussed above, the conversion of fuel N to NO can be largely ckcumvented by first, a primary stage at 0 = 1.5-2 with a modest residence time to allow formation of N2 in the hot primary products, followed by rapid addition of secondary ak to complete the combustion at an effective [Pg.529]

The above description of eutrophication has illustrated the complex nature of the problem, particularly in relation to the influence of nutrients, the multiplicity of sources of phosphorus and the spectrum of its bio-availability. Clearly, the most effective long-term solution to many of our eutrophication problems will be to reduce the nutrient load to affected waters. However, it has also been shown that, because the concentrations of available phosphorus required to impose a control on primary production is very low (e.g. 5-10/rgU total dissolved phosphorus), the reduction of nutrients from any one source alone is unlikely to be effective. 

Isotope effects are also useful in providing insight into other aspects of the mechanisms of individual electrophilic aromatic substitution reactions. In particular, because primary isotope effects are expected only when the breakdown of the c-complex to product is rate-determining, the observation of a substantial points to a rate-... 

It seemed to us that the concept of primary salt effect was worth consideration for the polyelectrolyte catalysis156 . According to Bronsted157 and Bjerrum1 s8 the rate constant of the reaction is accounted for in terms of the activated complex theory A + B X -> C + D, X is the activated complex, C and D denote the product. The second-order rate constant, k2, is given by... 

The conductometric results of Meerwein et al. (1957 b) mentioned above demonstrate that, in contrast to other products of the coupling of nucleophiles to arenediazonium ions, the diazosulfones are characterized by a relatively weak and polarized covalent bond between the p-nitrogen and the nucleophilic atom of the nucleophile. This also becomes evident in the ambidentate solvent effects found in the thermal decomposition of methyl benzenediazosulfone by Kice and Gabrielson (1970). In apolar solvents such as benzene or diphenylmethane, they were able to isolate decomposition products arising via a mechanism involving homolytic dissociation of the N — S bond. In a polar, aprotic solvent (acetonitrile), however, the primary product was acetanilide. The latter is thought to arise via an initial hetero-lytic dissociation and reaction of the diazonium ion with the solvent (Scheme 6-11). 

A large primary isotope effect kH/kD = 3.6 had also been found earlier by Ibne-Rasa122 in the nitrosation of 2,6-dibromophenol in the 4 position which was also shown to be base-catalysed. These values are not unexpected in view of the isotope effect found with diazonium coupling which involves a similarly unreactive electrophile, so that the rate-determining transition state will be displaced well towards products. Furthermore, the intermediate will have a quinonoid structure and will, therefore, be of low energy consequently, the energy barrier for the second step of the reaction will be high. 

A month-long study of the effects of ultraviolet radiation (UV) on phytoplankton and ice-algae collected from Arthur Harbor, Anvers Island, Antarctica, was carried out during November-December 1987. The parameters studied included primary production rates, photosynthetic... 

Potential Effects of UV on Primary Production. The results of the study carried out at Palmer Station during Novcmbcr-Dccembcr 1987 provided insight into the potential deleterious effects of enhanced UV radiation. These results showed an enhancement of the photosynthctic rates in the tanks where UV-A and UV-B were excluded. Conversely, rates of production were much lower under ambient and enhanced UV... 

Comparison with other Studies. How do the results of our investigation compare with similar studies Our results corroborate the data provided in a similar study of the effect of UV-B on primary productivity in the southeastern Pacific Ocean (35). In the latter study, it was noted that enhanced UV-B radiation caused significant decreases in the productivity of surface and deep samples. Compared to ambient, primary productivity decreased with increasing doses of UV-B. In another study in which in situ experiments using natural Antarctic phytoplankton populations, it was noted that incident solar radiation significantly depressed photosynthetic rates in the upper 10-15 meters of the water column (36). It was also found that the spectral region between 305 and 350 nm was responsible for approximately 75 percent of the overall inhibitory effect. 

Predicting the effect of the terrestrial vegetation response to C02-induced climate change for a particular site involves explicit treatment of feedbacks. These are diagramed in Figure 3. The balance between decomposition + autotrophic respiration and gross primary production (GPP) determines the net storage and release of carbon to atmosphere. Climate meets each of these... 

The subsequent fate of the assimilated carbon depends on which biomass constituent the atom enters. Leaves, twigs, and the like enter litterfall, and decompose and recycle the carbon to the atmosphere within a few years, whereas carbon in stemwood has a turnover time counted in decades. In a steady-state ecosystem the net primary production is balanced by the total heterotrophic respiration plus other outputs. Non-respiratory outputs to be considered are fires and transport of organic material to the oceans. Fires mobilize about 5 Pg C/yr (Baes et ai, 1976 Crutzen and Andreae, 1990), most of which is converted to CO2. Since bacterial het-erotrophs are unable to oxidize elemental carbon, the production rate of pyroligneous graphite, a product of incomplete combustion (like forest fires), is an interesting quantity to assess. The inability of the biota to degrade elemental carbon puts carbon into a reservoir that is effectively isolated from the atmosphere and oceans. Seiler and Crutzen (1980) estimate the production rate of graphite to be 1 Pg C/yr. 

Nutrient Higher concentration eutrophication Primary producers Potential bottom up-effects Higher gross primary production Lower efficiency on materials processing... 

Stanley EH, Eisher SG, Jones JB (2004) Effects of water loss on primary production a landscape-scale model. Aquat Sci 66 130-138... 

The oxidation by Cr(VI) of aliphatic hydrocarbons containing a tertiary carbon atom has been studied by several groups of workers. Sager and Bradley showed that oxidation of triethylmethane yields triethylcarbinol as the primary product with a primary kinetic isotope effect of about 1.6 (later corrected by Wiberg and Foster to 3.1) for deuterium substitution at the tertiary C-H bond. Oxidations... 

Saunders and Nosier studied the photolysis of NDPA by sunlight in lake water and by sunlamps in distilled water. They found fairly rapid NDPA decomposition in both cases, and in contrast to published work with other nitrosodialkyl amines, did not observe any pH effects in the range pH 3-9. The primary product in water was 1-ami nopropane dipropylamine was also observed. 

The intermediacy of a nucleoside metaphosphate in this synthesis was first discussed by Todd122). It could arise from the anhydrides 179 a-c formal as primary products and should effect phosphorylation of the nucleoside component. 

---