Oscar Díaz scite author profile

Genetic diversity of 33 Elymus caninus accessions was investigated using isozyme, RAPD, and microsatellite markers. The three assays differed in the amount of polymorphism detected. Microsatellites detected the highest polymorphism. Six microsatellite primer pairs generated a total of 74 polymorphic bands (alleles), with an average of 15.7 bands per primer pair. Three genetic similarity matrices were estimated based on band presence or absence. Genetic diversity trees (dendrograms) were derived from each marker technique, and compared using Mantel's test. The correlation coefficients were 0.204, 0.267, and 0.164 between isozyme and RAPD distance matrices, RAPD and microsatellite distance matrices, and between isozyme and microsatellite distance matrices, respectively. The three methodologies gave differing views of the amount of variation present but all showed a high level of genetic variation in E. caninus. The following points may be drawn from this study whether based on RAPD, microsatellite, or isozyme data: (i) The Icelandic populations are consistently revealed by the three dendrograms. The congruence of the discrimination of this accession group by RAPD, microsatellite, and isozyme markers suggests that geographic isolation strongly influenced the evolution of the populations; (ii) The degree of genetic variation within accessions was notably great; and (iii) The DNA-based markers will be the more useful ones in detecting genetic diversity in closely related accessions. In addition, a dendrogram, which took into account all fragments produced by isozymes, RAPDs, and microsatellites, reflected better the relationships than did dendrograms based on only one type of marker.

show abstract

Quantification of enzymatic browning in apple slices applying the fractal texture Fourier image

Quevedo

¹

,

Jaramillo

²

,

Díaz

³

et al. 2009

Journal of Food Engineering

View full text Add to dashboard Cite

Genetic diversity in <i>Elymus caninus</i> as revealed by isozyme, RAPD, and microsatellite markers

Sun¹,

Díaz²,

Salomon³

et al. 1999

Génome

View full text Add to dashboard Cite

Genetic diversity of 33 Elymus caninus accessions was investigated using isozyme, RAPD, and microsatellite markers. The three assays differed in the amount of polymorphism detected. Microsatellites detected the highest polymorphism. Six microsatellite primer pairs generated a total of 74 polymorphic bands (alleles), with an average of 15.7 bands per primer pair. Three genetic similarity matrices were estimated based on band presence or absence. Genetic diversity trees (dendrograms) were derived from each marker technique, and compared using Mantel's test. The correlation coefficients were 0.204, 0.267, and 0.164 between isozyme and RAPD distance matrices, RAPD and microsatellite distance matrices, and between isozyme and microsatellite distance matrices, respectively. The three methodologies gave differing views of the amount of variation present but all showed a high level of genetic variation in E. caninus. The following points may be drawn from this study whether based on RAPD, microsatellite, or isozyme data: (i) The Icelandic populations are consistently revealed by the three dendrograms. The congruence of the discrimination of this accession group by RAPD, microsatellite, and isozyme markers suggests that geographic isolation strongly influenced the evolution of the populations; (ii) The degree of genetic variation within accessions was notably great; and (iii) The DNA-based markers will be the more useful ones in detecting genetic diversity in closely related accessions. In addition, a dendrogram, which took into account all fragments produced by isozymes, RAPDs, and microsatellites, reflected better the relationships than did dendrograms based on only one type of marker.

show abstract

Extent and Patterns of RAPD Variation in Landraces and Cultivars of Rye (Secale Cereale L.) from Northern Europe

Persson

¹

,

Díaz²,

Bothmer

³

2004

View full text Add to dashboard Cite

Little is known about the extent and patterns of distribution of RAPD diversity in outcrossing species. This study is the first step in using RAPD markers to quantify the amount and distribution of genetic variation within and between accessions of 9 landraces and 3 cultivars of cultivated rye from Northern Europe. A high level of RAPD variation was detected, demonstrating the utility of RAPDs for genetic characterisation in rye. The results show that: (1) landraces and improved cultivars maintain roughly the same high levels of RAPD variation, (2) landraces from Norway, Germany and Finland showed the lowest level of variation, probably because of a small amount of seeds from the original samples, (3) most of the RAPD variation was found within rather than between the accessions, which is consistent with the pattern expected for a cross pollinated crop. Both the cluster and the principal coordinates analyses displayed the same pattern of genetic relationship among the accessions studied.

show abstract

Quantification of enzymatic browning kinetics in pear slices using non-homogenous ∗ color information from digital images

Quevedo

¹

,

Díaz

²

,

Caqueo

³

et al. 2009

LWT - Food Science and Technology

View full text Add to dashboard Cite

Sediment Inventory and Phosphorus Fractions for Water Conservation Area Canals in the Everglades

Díaz

¹

,

Daroub

²

,

Stuck

³

et al. 2006

Soil Science Soc of Amer J

View full text Add to dashboard Cite

Nutrient loading from the Everglades Agricultural Area and nearby urban communities plus water flow rate and canal size have significantly influenced the amount of sediment and phosphorus (P) pools stored in the Water Conservation Area (WCA) canals in the Everglades. A study was conducted to characterize the potential impact that sediments might have on the overlying water column by conducting an inventory of total P (TP) and major P forms in sediments of all major canals in the WCAs. Sediment samples and sediment depth measurements were taken at transects every 1.6-km along all canals reaches. A total sediment volume of about 6.8 million m 3 , with a P mass of approximately 1808 Mg was estimated to be stored within all WCA canals, with the eastern canal accounting for 71% of the total sediment volume and about half of TP mass. Phosphorus fractions associated with Ca-and Mg-compounds and residual organic P (Po) were the dominant forms stored in these canals, with the greatest P mass observed in the western side of the WCAs. These results indicates that .80% of the TP mass stored in surface sediments in the WCAs is fairly stable, and represent an important long-term sink for P. Canal sediments from the eastern side of the WCAs were low in bulk density, highly organic and more susceptible to resuspension and transport during strong drainage events. These sediments showed higher Fe-and Al-bound P and organic-bound P fractions, making them more susceptible to changes in the redox potential of the sediments that could result in the long-term release of Fe-bound P to the overlying water column.

show abstract

Oscar Díaz

Phosphorus dynamics in selected wetlands and streams of the lake Okeechobee Basin

Solubility of inorganic phosphorus in stream water as influenced by pH and calcium concentration

Genetic diversity inElymus caninusas revealed by isozyme, RAPD, and microsatellite markers

Quantification of enzymatic browning in apple slices applying the fractal texture Fourier image

Genetic diversity in <i>Elymus caninus</i> as revealed by isozyme, RAPD, and microsatellite markers

Extent and Patterns of RAPD Variation in Landraces and Cultivars of Rye (Secale Cereale L.) from Northern Europe

Quantification of enzymatic browning kinetics in pear slices using non-homogenous ∗ color information from digital images

Sediment Inventory and Phosphorus Fractions for Water Conservation Area Canals in the Everglades

Contact Info

Product

Resources

About