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Corrosion of construction metals under simulated acid rain/fog conditions with high salinity (1990)

Fang, H. H. P. ; Wu, K. K. ; Yeong, C. L. Y.

Springer

Water, air & soil pollution 53 (1990), S. 315-325

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ISSN: 1573-2932

Source: Springer Online Journal Archives 1860-2000

Topics: Energy, Environment Protection, Nuclear Power Engineering

Notes: Abstract Corrosion of 1,312 specimens of five common construction metals were examined in a salt-spray chamber under simulated conditions of acid rain/fog with high salinity. When specimens were exposed to a condition simulating the acid rain/fog during summer in Hong Kong, i.e. pH 3.5, 1% of salt and 35 °C, the average corrosion rates were 735, 330, 2, 97 and 9 µm yr−1, respectively, for mild steel, galvanized steel, stainless steel 304, red brass and aluminum. Relative effects of pH, salt concentration and temperature on the corrosion of these five metals were analyzed based on tests conducted at nine designed conditions. For the first four metals, the corrosion rate appears to increase linearly with the increase of ‘acidity’, salinity and temperature, according to regression analysis. Corrosion rate of SS 304 is almost independent of salinity and temperature, but is slightly affected by pH. Red brass is more susceptible than SS 304, but its susceptibilities to pH and salinity are one order of magnitude lower than those of mild steel and galvanized steel. Mild steel is about five times more susceptible to pH than galvanized steel; whereas the latter is about three times more susceptible to salinity than the former. Aluminum's corrosion rate increases as pH decreases; however, the effects of salinity and temperature are inconclusive.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00170745

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The detection and estimation of linkage in polyploids using single-dose restriction fragments (1992)

Wu, K. K. ; Burnquist, W. ; Sorrells, M. E. ; [et al.]

Springer

Theoretical and applied genetics 83 (1992), S. 294-300

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ISSN: 1432-2242

Keywords: RFLP ; Single-dose restriction fragment ; Polyploids ; Genetic mapping ; Preferential chromosome pairing

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Summary Restriction fragment length polymorphism (RFLP) linkage maps have been constructed in several major diploid crops. However, construction of RFLP maps directly in polyploids has lagged behind for several reasons: (1) there are a large number of possible genotypes for each DNA probe expected in a segregating population, and these genotypes cannot always be identified readily by their banding phenotypes; and (2) the genome constitutions (allopolyploidy versus autopolyploidy) in many high polyploids are not clearly understood. We present here an analysis of these problems and propose a general method for mapping polyploids based on segregation of single-dose restriction fragments (SDRFS). SDRFs segregate 1:1 (presence: absence) in gametes of heterozygous plants. Hypothetical allopolyploid and autopolyploid species with four ploidy levels of 2n = 4x, 6x, 8x, and 10x, are used to illustrate the procedures for identifying SDRFs, detecting linkages among SDRFs, and distinguishing allopolyploid versus autopolyploids from polyploids of unknown genome constitution. Family size required, probability of linkage, and attributes of different mapping populations are discussed. We estimate that a population size of 75 is required to identify SDRFs with 98% level of confidence for the four ploidy levels. This population size is also adequate for detecting and estimating linkages in the coupling phase for both allopolyploids and autopolyploids, but linkages in the repulsion phase can be estimated only in allopolyploids. For autopolyploids, it is impractical to estimate meaningful linkages in repulsion because very large family sizes (〉750) are required. For high-level polyploids of unknown genome constitution, the ratio between the number of detected repulsion versus coupling linkages may provide a crude measurement of preferential chromosome pairing, which can be used to distinguish allopolyploidy from autopolyploidy. To create a mapping population, one parent (P1) should have high heterozygosity to ensure a high frequency of SDRFs, and the second parent (P2) should have a low level of heterozygosity to increase the probability of detecting polymorphic fragments. This condition could be satisfied by choosing outcrossed hybrids as one parental type and inbreds, haploids, or doubled haploids as the other parental type.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00224274

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