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Abstract
Turgrfass used on landscapes, parks, sports fields, and golf courses has significant ecological, environmental, and economic impacts. The economic value of seed production of turfgrasses is second to hybrid corn. The land area cultivated with turfgrass is increasing due to rapid urban development. Turfgrass is often subjected to various abiotic stresses, which cause declines in aesthetic quality, functionality and seed yield. Among abiotic stresses, drought, salinity, heat, and low temperature are the most common detrimental factors for turfgrass growth in various regions. Thorough understanding of mechanisms of turfgrass stress responses is vital for the development of superior stress-tolerant germplasm through breeding and biotechnology. Significant progress has been made in turfgrass stress physiology and molecular biology in recent decades, but research for turfgrasses generally lags behind that of the major Poaceae crops, particularly at the molecular and genomic levels. This review focuses on research advances in turfgrass stress physiology and provides an overview of limited information on gene discovery, genetic transformation, and molecular marker development for improving stress tolerance, with emphasis on drought, salinity, heat, and low temperature stress. Major growth and physiological traits associated with these stresses, as well as metabolic and molecular factors regulating various traits for turfgrass tolerance to each stress are discussed. Future research at the systems biology level and through genomic sequencing is paramount for further insights on fundamental mechanisms of turfgrass stress tolerance and for improving turfgrass tolerance to various environmental stresses.
ACKNOWLEDGMENT
Authors wish to express thanks to Patrick Burgess and David Jespersen for critical review of the manuscript and Dr. Emily Merewitz and Dr. Yan Xu for their contribution to literature review on drought and heat stress physiology.