Production globalization

Catfish are not a major contributor to aquaculture production globally, but the channel catfish industry dominates United States aquaculture. United States catfish production, primarily channel catfish, was 209,090 metric tons in 1992 (4). 

Production. Global hydrogen fluoride production capacity in 1992 was estimated to be 875,000 metric tons. An additional 204,000 metric tons was used captively for production of aluminum fluoride. Worldwide capacity is tabulated in Table 5 (38). Pricing for hydrogen fluoride in 1990 was about 1.52/kg (39). 

Wamant, P., Francois, L., Strivay, D. and Gerard, J.-C. (1994). CARAIB A global model of terrestrial biological productivity. Global Biogeochem. Cycles 8, 255-270. 

Popp A, Lotze-Campen FI, Bodirsky B. Food consumption, diet shifts and associated non-C02 greenhouse gases from agricultural production. Global Environmental Change. 2010 20 451-62. 

Aromatic copolyesters, 13 372 Aromatic diacyl peroxides, 14 283 Aromatic diisocyanates, urethanes obtained from, 25 462—463 Aromatic epoxies, 10 347-348 Aromatic ethers, 10 574 Aromatic fluorocarbon production, global, 11 871-872... 

Zhu, Y., Chen, J., Jiao, R. 1997. Hot test and process parameter calculation of purified CYANEX 301 extraction for separating Am and fission products. Global 1997 International Conference on Future Nuclear Systems, October, Yokohama, Japan. 

Gross Domestic Product Global Ecological Fund... 

Jim Miller, Exec. VP-Product Global Supply Chain Mgmt. 

Last, but of equal importance, diversity is a fundamental business strategy for success. Why P G markets consumer products globally, and thus we have to understand the needs of very diverse customers. A monoculture of white males cannot have all the answers to all questions. However, by building a diverse workforce, we will better understand such consumer needs, understand them more quickly than our competition, and thereby build and maintain a critically important competitive edge. 

We now recognize that NOs is not always the dominant source of new N in the open ocean (Table 7.1). N2 fixation is more widespread than previously thought. Filamentous diazotrophs (e.g., Trichodesmium sp. Capone et al., 1997), diazotrophic endosymbionts (Carpenter et al., 1999), and unicellular cyanobacteria aU fix N2 at high rates in nature (Carpenter and Capone, this volume Montoya et al., 2004 Zehr etai, 2001). In tropical and subtropical waters, it has been calculated that N2 fixation by Trichodesmium sp. alone fuels 50% of the new production (Capone et al., 2005 Karl et al., 1997). Montoya et al. (2004) estimated that diazotrophic uniceUs may contribute up to 10% of total oceanic new production globally. 

WiUiams, R. G., Roussenov, V., and FoUows, M. J. (2006). Induction of nutrients into the mixed layer and maintenance of high latimde productivity. Global Biogeochem. Cycles 20, GB1016, doi 10.1029/ 2005GB002586. 

The relative impact of zooplankton grazing on primary production decreases with increasing production levels the proportion of primary production that is consumed by zooplankton decreases exponentially as productivity levels increase (Calbet, 2001). This supports the observation that the ratio of export production to total production is higher in areas of high productivity. Globally, 12% of marine primary production, or 5.5 Pg C (0.5 Pmol C), is consumed by mesozoo-plankton each year (Calbet, 2001). 

Location of OAE II, defined by the S Corg excursion, is indicated next to the Uthologic log. Abbreviations for proxy interpretation terms include D—detrital source V—volcanogenic source Df—detrital fluvial source D —detrital eolian soruce Ri—respiration/local reservoir-dominated Pg— production/global reservoir-dominant O—oxic ... 

Duddleston K. N., Kinney M. A., Kiene R. P., and Hines M. E. (2002) Anaerobic microbial biogeochemistry in a northern bog acetate a dominant metabolic end product. Global Biogeochem. Cycles 16(11), 1-9. 

DeFries R. S., Field C. B., Fung L, Collatz G. J., and Bounoua L. (1999) Combining satellite data and biogeochemical models to estimate global effects of human-induced land cover change on carbon emissions and primary productivity. Global Biogeochem. Cycles 13, 803-815. 

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