Zoysiagrass (Zoysia spp.) accessions differ in nitrogen cycling during a simulated seasonal senescence

Abstract: Zoysiagrass is a valuable low maintenance warm‐season turfgrass. Nitrogen management is one of the most important management practices that affect colour retention and winter hardiness. However, the N cycling during seasonal senescence and its interaction with low temperature acclimation are not well‐understood. The objective of this experiment was to understand the initiation of senescence as affected by environmental signals and the contribution of chlorophyll and protein degradation to N metabolites. Two co… Show more

“…However, the N cycling during seasonal senescence and its interaction with low-temperature acclimation are not well understood. Zhu et al (2024b) found that zoysiagrass accessions differed in N cycling during simulated seasonal senescence; accessions from low latitudes had higher chlorophyll retention and lower N recycle than those from higher latitudes. As different mechanisms were responsible for the senescence and low-temperature acclimation, the signal and regulation mechanism in N cycling during the seasonal senescence and acclimation is intriguing.…”

Grassland, forage, and turfgrass science in China

“…However, the N cycling during seasonal senescence and its interaction with low-temperature acclimation are not well understood. Zhu et al (2024b) found that zoysiagrass accessions differed in N cycling during simulated seasonal senescence; accessions from low latitudes had higher chlorophyll retention and lower N recycle than those from higher latitudes. As different mechanisms were responsible for the senescence and low-temperature acclimation, the signal and regulation mechanism in N cycling during the seasonal senescence and acclimation is intriguing.…”

Grassland, forage, and turfgrass science in China