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Substantial Economic Losses (substantial + economic_loss)
Selected AbstractsImpact of a native predatory whelk on cultivated oysters (Crassostrea gigas) crops in San Quintin Bay, MexicoAQUACULTURE RESEARCH, Issue 4 2009Laura F Rodriguez Abstract San Quintin Bay (Baja, California, Mexico) is extensively utilized by artisanal farmers to cultivate Pacific oysters (Crassostrea gigas) using a rope/rack system. A large juvenile oyster mortality event was significantly correlated with the presence of native predatory whelks, Macron trochlea. Surveys, field and lab experiments were performed to identify the predatory behaviour of the whelk, determine factors affecting oyster mortality, and quantify the impact on oyster farmers. Macron trochlea was found to be a voracious, active predator, which can consume ,4 juvenile oysters day,1. Juvenile oysters suffer significantly higher mortality in the presence of whelks. Macron trochlea has the largest impact on small oysters. Once oysters grow to >30 mm they reach a size refuge above which there is much lower mortality. At average growth rates, an oyster can escape predation after ,3 months. But, in areas of highest whelk densities, at average predation rates, whelks could consume the standing crop of juvenile oysters in approximately 43 days. For the artisanal oyster farmers of San Quintin this represents a substantial economic loss, which was unaccounted for previously. Farmers can reduce loss to whelk predation by seeding juvenile oysters in low whelk density areas until oysters reach the size refuge. [source] Spot water markets and risk in water supplyAGRICULTURAL ECONOMICS, Issue 2 2005Javier Calatrava Water markets; Economic risk; Water availability; Irrigated agriculture Abstract Water availability patterns in semiarid regions are typically extremely variable. Even in basins with a highly developed infrastructure, users are subject to unreliable water supplies, incurring substantial economic losses during periods of scarcity. More flexible instruments, such as voluntary exchanges of water among users, can help users to reduce risk exposure. This article looks at the effects of spot water markets on the economic risk caused by water availability variations. Our theoretical and empirical risk analyses are based on the random profits of water users. Profit probability density functions are formally and graphically characterized for both water sellers and buyers under several possible market outcomes. We conclude from this analysis that, where water supply is stochastic, water markets unambiguously reduce both parties' risk exposure. The empirical study is conducted on an irrigation district in the Guadalquivir Valley (Southern Spain), where there is a high probability of periods of extreme water scarcity. Water demand functions for the district representative irrigators and a spatial equilibrium model are used to simulate market exchanges and equilibrium. This programming model is combined with statistical simulation techniques. We show that the profit probability distribution of a representative irrigator is modified if water exchanges are authorized, leading to risk reductions. Results also indicate that if the market were extended to several districts and users that are subject to varying hydrological risk exposure, extremely low-profit events would be less likely to occur. In sum, we show that exchanging water in annual spot markets can reduce farmers' economic vulnerability caused by water supply variability across irrigation seasons. These results support the water policy reform carried out in Spain in 1999 to allow for voluntary water exchanges among right holders. [source] Isolation, Partial Purification, and Immunogenicity of Flagella from Tritrichomonas foetusTHE JOURNAL OF EUKARYOTIC MICROBIOLOGY, Issue 3 2005PHILIP F. JEMILOHUN Abstract. Tritrichomonas foetus, the agent of bovine trichomoniasis, is a flagellate protozoan responsible for substantial economic losses to the dairy and calf industries worldwide. As yet, there is no approved treatment nor is there a sensitive diagnostic method. All these problems suggest that immunization is the best control strategy. In view of this, we isolated and partially purified flagella of the parasite by vortex homogenization followed by low-speed differential centrifugation. The resulting enriched flagellar preparation termed "crude flagellar prep" was purified further by sucrose and percoll gradients. Microscopic analysis showed that the flagellar membrane was intact. Analysis by sodium dodecyl-sulfate polyacrylamide gel electrophoresis revealed three prominent protein bands of 42, 49, and >250 kDa, and several minor bands. Immunoblotting of flagellar and whole-cell extracts revealed many flagellar antigens. [source] A single-base change in the tyrosine kinase II domain of ovine FGFR3 causes hereditary chondrodysplasia in sheepANIMAL GENETICS, Issue 1 2006J. E. Beever Summary Ovine hereditary chondrodysplasia, or spider lamb syndrome (SLS), is a genetic disorder that is characterized by severe skeletal abnormalities and has resulted in substantial economic losses for sheep producers. Here we demonstrate that a non-synonymous T>A transversion in the highly conserved tyrosine kinase II domain of a positional candidate gene, fibroblast growth factor receptor 3 (FGFR3), is responsible for SLS. We also demonstrate that the mutant FGFR3 allele has an additive effect on long-bone length, calling into question the long-standing belief that SLS is inherited as a strict monogenic, Mendelian recessive trait. Instead, we suggest that SLS manifestation is determined primarily by the presence of the mutant FGFR3 allele, but it is also influenced by an animal's genetic background. In contrast to FGFR3 mutations causing dwarfism in humans, this single-base change is the only known natural mutation of FGFR3 that results in a skeletal overgrowth phenotype in any species. [source] | ||||||||||