Qing-Wei Wang1, Jun Hidema1, Kouki Hikosaka2. 1. Graduate School of Life Sciences, Tohoku University, Aoba, Sendai 980-8578, Japan. 2. Graduate School of Life Sciences, Tohoku University, Aoba, Sendai 980-8578, Japan CREST, Japan Science and Technology Agency (JST), Japan.
Abstract
UNLABELLED: • PREMISE OF THE STUDY: Although ultraviolet radiation (UV) is known to have negative effects on plant growth, there has been no direct evidence that plants growing at higher elevations are more severely affected by ultraviolet-B (UV-B) radiation, which is known to increase with elevation. We examined damage to DNA, a primary target of UV-B, in the widespread species Polygonum sachalinense (Fallopia sachalinensis) and Plantago asiatica at two elevations.• METHODS: We sampled leaves of both species at 300 and 1700 m above sea level every 2 h for 11 d across the growing season and determined the level of cyclobutane pyrimidine dimer (CPD), a major product of UV damage to DNA.• KEY RESULTS: The CPD level was significantly influenced by the time of day, date, elevation, and their interactions in both species. The CPD level tended to be higher at noon or on sunny days. DNA damage was more severe at 1700 m than at 300 m: on average, 8.7% greater at high elevation in P. asiatica and 7.8% greater in P. sachalinense Stepwise multiple regression analysis indicated that the CPD level was explained mainly by UV-B and had no significant relationship with other environmental factors such as temperature and photosynthetically active radiation.• CONCLUSIONS: UV-induced DNA damage in plants is greater at higher elevations.
UNLABELLED: • PREMISE OF THE STUDY: Although ultraviolet radiation (UV) is known to have negative effects on plant growth, there has been no direct evidence that plants growing at higher elevations are more severely affected by ultraviolet-B (UV-B) radiation, which is known to increase with elevation. We examined damage to DNA, a primary target of UV-B, in the widespread species Polygonum sachalinense (Fallopia sachalinensis) and Plantago asiatica at two elevations.• METHODS: We sampled leaves of both species at 300 and 1700 m above sea level every 2 h for 11 d across the growing season and determined the level of cyclobutane pyrimidine dimer (CPD), a major product of UV damage to DNA.• KEY RESULTS: The CPD level was significantly influenced by the time of day, date, elevation, and their interactions in both species. The CPD level tended to be higher at noon or on sunny days. DNA damage was more severe at 1700 m than at 300 m: on average, 8.7% greater at high elevation in P. asiatica and 7.8% greater in P. sachalinense Stepwise multiple regression analysis indicated that the CPD level was explained mainly by UV-B and had no significant relationship with other environmental factors such as temperature and photosynthetically active radiation.• CONCLUSIONS: UV-induced DNA damage in plants is greater at higher elevations.
Authors: Gabriele Jovtchev; Alexander Stankov; Ivanka Ravnachka; Svetla Gateva; Dimitar Dimitrov; Nikolai Tyutyundzhiev; Nina Nikolova; Christo Angelov Journal: Environ Sci Pollut Res Int Date: 2019-03-27 Impact factor: 4.223
Authors: Kenneth L Chiou; Mareike C Janiak; India A Schneider-Crease; Sharmi Sen; Ferehiwot Ayele; Idrissa S Chuma; Sascha Knauf; Alemayehu Lemma; Anthony V Signore; Anthony M D'Ippolito; Belayneh Abebe; Abebaw Azanaw Haile; Fanuel Kebede; Peter J Fashing; Nga Nguyen; Colleen McCann; Marlys L Houck; Jeffrey D Wall; Andrew S Burrell; Christina M Bergey; Jeffrey Rogers; Jane E Phillips-Conroy; Clifford J Jolly; Amanda D Melin; Jay F Storz; Amy Lu; Jacinta C Beehner; Thore J Bergman; Noah Snyder-Mackler Journal: Nat Ecol Evol Date: 2022-03-24 Impact factor: 19.100