Metabolic pathways illustrating metabolites differentially up-regulated (increase in content) or down-regulated (decrease in content) by heat stress in P. annua and A. stolonifera. Credit: Grass Research (2024). DOI: 10.48130/grares-0024-0011
A research team has identified key metabolic composition differences between annual bluegrass and creeping bentgrass under heat stress, revealing specific metabolites linked to heat tolerance. The findings underscore the potential to use these metabolites as biomarkers for breeding more resilient turfgrass varieties.
This research holds promise for improving turf management strategies, ensuring that golf courses and sports fields can maintain high-quality turf to defend against rising temperatures and climate variability.
Annual bluegrass (P. annua L.) is a popular cool-season turfgrass on golf courses globally, known for its performance in mild climates like the Pacific Northwest, yet struggles with heat stress in warmer transitional zones.
Despite its historical classification as a weed due to its low tolerance to heat, recent shifts in management practices have encouraged its cultivation alongside creeping bentgrass (A. stolonifera). However, P. annua’s susceptibility to heat-induced stress leads to early degradation of turf quality, posing challenges for maintaining aesthetically pleasing greens.
A study published in Grass Research on 19 April 2024, aims to explore the physiological and metabolic differences between P. annua and A. stolonifera under heat stress, seeking to enhance the resilience of these grasses in the face of escalating temperatures due to climate change.
In this study, researchers assessed the physiological responses and metabolic changes of P. annua and A. stolonifera under conditions of heat stress. Through rigorous testing, including the measurement of turf quality (TQ), percent green canopy cover, and leaf electrolyte leakage (EL), significant differences were observed in how each species coped with heat stress.
2024-05-20 14:00:03
Source from phys.org