SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2947156780> ?p ?o ?g. }

Showing items 1 to 100 of ±142 with 100 items per page.

W2947156780 endingPage "145" @default.
W2947156780 startingPage "145" @default.
W2947156780 abstract "During exposure to direct sunlight, leaf temperature increases rapidly and can reach values well above air temperature in temperate forest understories, especially when transpiration is limited due to drought stress, but the physiological effects of such high-temperature events are imperfectly understood. To gain insight into leaf temperature changes in the field and the effects of temperature variation on plant photosynthetic processes, we studied leaf temperature dynamics under field conditions in European aspen (Populus tremula L.) and under nursery conditions in hybrid aspen (P. tremula × P. tremuloides Michaux), and further investigated the heat response of photosynthetic activity in hybrid aspen leaves under laboratory conditions. To simulate the complex fluctuating temperature environment in the field, intact, attached leaves were subjected to short temperature increases (“heat pulses”) of varying duration over the temperature range of 30 °C–53 °C either under constant light intensity or by simultaneously raising the light intensity from 600 μmol m−2 s−1 to 1000 μmol m−2 s−1 during the heat pulse. On a warm summer day, leaf temperatures of up to 44 °C were measured in aspen leaves growing in the hemiboreal climate of Estonia. Laboratory experiments demonstrated that a moderate heat pulse of 2 min and up to 44 °C resulted in a reversible decrease of photosynthesis. The decrease in photosynthesis resulted from a combination of suppression of photosynthesis directly caused by the heat pulse and a further decrease, for a time period of 10–40 min after the heat pulse, caused by subsequent transient stomatal closure and delayed recovery of photosystem II (PSII) quantum yield. Longer and hotter heat pulses resulted in sustained inhibition of photosynthesis, primarily due to reduced PSII activity. However, cellular damage as indicated by increased membrane conductivity was not found below 50 °C. These data demonstrate that aspen is remarkably resistant to short-term heat pulses that are frequent under strongly fluctuating light regimes. Although the heat pulses did not result in cellular damage, heatflecks can significantly reduce the whole plant carbon gain in the field due to the delayed photosynthetic recovery after the heat pulse." @default.
W2947156780 created "2019-06-07" @default.
W2947156780 creator A5001413079 @default.
W2947156780 creator A5023326297 @default.
W2947156780 creator A5054611811 @default.
W2947156780 creator A5080116147 @default.
W2947156780 creator A5085039313 @default.
W2947156780 creator A5086088702 @default.
W2947156780 date "2019-05-30" @default.
W2947156780 modified "2023-10-17" @default.
W2947156780 title "Responses of Aspen Leaves to Heatflecks: Both Damaging and Non-Damaging Rapid Temperature Excursions Reduce Photosynthesis" @default.
W2947156780 cites W1219143654 @default.
W2947156780 cites W1660011402 @default.
W2947156780 cites W1924799166 @default.
W2947156780 cites W1931284223 @default.
W2947156780 cites W1952615603 @default.
W2947156780 cites W1966755864 @default.
W2947156780 cites W1969776459 @default.
W2947156780 cites W1972675008 @default.
W2947156780 cites W1978823766 @default.
W2947156780 cites W1983954976 @default.
W2947156780 cites W1989929368 @default.
W2947156780 cites W1991289033 @default.
W2947156780 cites W1998675434 @default.
W2947156780 cites W2005370022 @default.
W2947156780 cites W2012257257 @default.
W2947156780 cites W2013396608 @default.
W2947156780 cites W2027993620 @default.
W2947156780 cites W2031544980 @default.
W2947156780 cites W2033467032 @default.
W2947156780 cites W2035896978 @default.
W2947156780 cites W2035977172 @default.
W2947156780 cites W2039500431 @default.
W2947156780 cites W2053300508 @default.
W2947156780 cites W2060950167 @default.
W2947156780 cites W2067074095 @default.
W2947156780 cites W2067124886 @default.
W2947156780 cites W2068546901 @default.
W2947156780 cites W2074897461 @default.
W2947156780 cites W2075843929 @default.
W2947156780 cites W2076235113 @default.
W2947156780 cites W2082636118 @default.
W2947156780 cites W2084611087 @default.
W2947156780 cites W2087654038 @default.
W2947156780 cites W2088872369 @default.
W2947156780 cites W2093766709 @default.
W2947156780 cites W2100381752 @default.
W2947156780 cites W2100641210 @default.
W2947156780 cites W2123954015 @default.
W2947156780 cites W2136011040 @default.
W2947156780 cites W2140131090 @default.
W2947156780 cites W2141432663 @default.
W2947156780 cites W2142928618 @default.
W2947156780 cites W2145856974 @default.
W2947156780 cites W2145962954 @default.
W2947156780 cites W2149642609 @default.
W2947156780 cites W2150088413 @default.
W2947156780 cites W2154802263 @default.
W2947156780 cites W2163563924 @default.
W2947156780 cites W2164095531 @default.
W2947156780 cites W2169311406 @default.
W2947156780 cites W2317670425 @default.
W2947156780 cites W2334470749 @default.
W2947156780 cites W2411783791 @default.
W2947156780 cites W2511647731 @default.
W2947156780 cites W2512203787 @default.
W2947156780 cites W2558386591 @default.
W2947156780 cites W2641675952 @default.
W2947156780 cites W2750842042 @default.
W2947156780 cites W2783498840 @default.
W2947156780 cites W2793057628 @default.
W2947156780 cites W39197767 @default.
W2947156780 cites W834871419 @default.
W2947156780 doi "https://doi.org/10.3390/plants8060145" @default.
W2947156780 hasPubMedCentralId "https://www.ncbi.nlm.nih.gov/pmc/articles/6630322" @default.
W2947156780 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/31151267" @default.
W2947156780 hasPublicationYear "2019" @default.
W2947156780 type Work @default.
W2947156780 sameAs 2947156780 @default.
W2947156780 citedByCount "18" @default.
W2947156780 countsByYear W29471567802020 @default.
W2947156780 countsByYear W29471567802021 @default.
W2947156780 countsByYear W29471567802022 @default.
W2947156780 countsByYear W29471567802023 @default.
W2947156780 crossrefType "journal-article" @default.
W2947156780 hasAuthorship W2947156780A5001413079 @default.
W2947156780 hasAuthorship W2947156780A5023326297 @default.
W2947156780 hasAuthorship W2947156780A5054611811 @default.
W2947156780 hasAuthorship W2947156780A5080116147 @default.
W2947156780 hasAuthorship W2947156780A5085039313 @default.
W2947156780 hasAuthorship W2947156780A5086088702 @default.
W2947156780 hasBestOaLocation W29471567801 @default.
W2947156780 hasConcept C121332964 @default.
W2947156780 hasConcept C144027150 @default.
W2947156780 hasConcept C157517311 @default.
W2947156780 hasConcept C183688256 @default.
W2947156780 hasConcept C185592680 @default.
W2947156780 hasConcept C2779796136 @default.