Prior exposure to freezing stress enhances the survival and recovery of Poa pratensis exposed to severe drought
RS Kong, HAL Henry - American Journal of Botany, 2016 - Wiley Online Library
PREMISE OF THE STUDY: Both freezing and drought cause cellular dehydration, and they
elicit similar increases in protective compounds, which suggests that these stresses could …
elicit similar increases in protective compounds, which suggests that these stresses could …
Prior exposure to freezing stress enhances the survival and recovery of Poa pratensis exposed to severe drought
RS Kong, HAL Henry - American Journal of Botany, 2016 - JSTOR
PREMISE OF THE STUDY: Both freezing and drought cause cellular dehydration, and they
elicit similar increases in protective compounds, which suggests that these stresses could …
elicit similar increases in protective compounds, which suggests that these stresses could …
Prior exposure to freezing stress enhances the survival and recovery of Poa pratensis exposed to severe drought.
RS Kong, HA Henry - American Journal of Botany, 2016 - europepmc.org
Methods We froze Poa pratensis tillers in the late fall, early spring, or late spring at 0,-5, or-
10 C for 3 d and then subjected them to no drought (-0.025 MPa), moderate drought (-0.140 …
10 C for 3 d and then subjected them to no drought (-0.025 MPa), moderate drought (-0.140 …
Prior exposure to freezing stress enhances the survival and recovery of Poa pratensis exposed to severe drought.
RS Kong, HAL Henry - 2016 - cabidigitallibrary.org
Abstract PREMISE OF THE STUDY: Both freezing and drought cause cellular dehydration,
and they elicit similar increases in protective compounds, which suggests that these stresses …
and they elicit similar increases in protective compounds, which suggests that these stresses …
Prior exposure to freezing stress enhances the survival and recovery of Poa pratensis exposed to severe drought.
RS Kong, HAL Henry - American Journal of Botany, 2016 - search.ebscohost.com
Abstract PREMISE OF THE STUDY: Both freezing and drought cause cellular dehydration,
and they elicit similar increases in protective compounds, which suggests that these stresses …
and they elicit similar increases in protective compounds, which suggests that these stresses …
Prior exposure to freezing stress enhances the survival and recovery of Poa pratensis exposed to severe drought
RS Kong, HAL Henry - American journal of botany, 2016 - pubmed.ncbi.nlm.nih.gov
Premise of the study Both freezing and drought cause cellular dehydration, and they elicit
similar increases in protective compounds, which suggests that these stresses could …
similar increases in protective compounds, which suggests that these stresses could …