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ARS Home » Midwest Area » Morris, Minnesota » Soil Management Research » Research » Publications at this Location » Publication #303670

Research Project: Enhancing Cropping System Sustainability Through New Crops and Management Strategies

Location: Soil Management Research

Title: Synthesis and assessment of date palm genetic diversity studies

Author
item Jaradat, Abdullah

Submitted to: Emirates Journal of Food and Agriculture
Publication Type: Peer Reviewed Journal
Publication Acceptance Date: 10/13/2014
Publication Date: N/A
Citation: N/A

Interpretive Summary: A large body of information on date palm diversity is available in reviewed literature, especially from countries in the Middle East and North Africa. This information suggests abundant opportunities and dedication for date palm research and development. Biotechnological research is needed to (1) identify and quantify genetic diversity components, (2) identify and clone genes and gene complexes for stresses, and (3) utilize information for future research and development. These new opportunities will lead to implementation of genetic conservation strategies and assessment of overall diversity in this fruit tree.

Technical Abstract: A thorough assessment of genetic diversity and population differentiation of Phoenix dactylifera are critical for its dynamic conservation and sustainable utilization of its genetic diversity. Estimates of genetic diversity based on phenotypic, biochemical and molecular markers; and fruit quality traits were utilized in assessing the population differentiation of date palm populations throughout its center of diversity. Some phenotypic traits may not exhibit variation in response to environmental or management factors and can be used as stable descriptors of date palm cultivars and for cultivar identification. The majority of analyzed studies based on isozyme and microsatellite markers, reported larger within-population than among-population genetic diversity levels. Most variation estimated for fruit quality traits was found among populations; however, substantial differences in genetic diversity components were found among and within populations. The overall partitioning of genetic diversity, based on phenotypic, biochemical, molecular, and fruit quality traits suggested that date palm cultivars represent a complex gene pool within which historical movement of germplasm, recent introductions and human selection are shaping their genetic structure. The empirical evidence derived from this assessment suggested that the genetic structure of date palm populations is controlled by the environment, isolation by distance, and the biological characteristics of the tree.