FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2087679265> ?p ?o ?g. }

• W2087679265 endingPage "151" @default.
• W2087679265 startingPage "141" @default.
• W2087679265 abstract "The aim of this work was to study the acclimation of photosynthesis in a boreal grass (Phalaris arundinacea L.) grown in controlled environment chambers under elevated temperature (ambient + 3.5°C) and CO2 (700 μmol mol-1) with varying soil water regimes. More specifically, we studied, during two development stages (early: heading; late: florescence completed), how the temperature response of light-saturated net photosynthetic rate (P sat), maximum rate of ribulose-1,5-bisphosphate carboxylase/oxygenase activity (V cmax) and potential rate of electron transport (J max) acclimatized to the changed environment. During the early growing period, we found a greater temperature-induced enhancement of P sat at higher measurement temperatures, which disappeared during the late stage. Under elevated growth temperature, V cmax and J max at lower measurement temperatures (5-15°C) were lower than those under ambient growth temperature during the early period. When the measurements were done at 20-30°C, the situation was the opposite. During the late growing period, V cmax and J max under elevated growth temperature were consistently lower across measurement temperatures. CO2 enrichment significantly increased P sat with higher intercellular CO2 compared to ambient CO2 treatment, however, elevated CO2 slightly decreased V cmax and J max across measurement temperatures, probably due to down-regulation acclimation. For two growing periods, soil water availability affected the variation in photosynthesis and biochemical parameters much more than climatic treatment did. Over two growing periods, V cmax and J max were on average 36.4 and 30.6%, respectively, lower with low water availability compared to high water availability across measurement temperatures. During the late growing period, elevated growth temperature further reduced the photosynthesis under low water availability. V cmax and J max declined along with the decrease in nitrogen content of leaves as growing period progressed, regardless of climatic treatment and water regime. We suggest that, for grass species, seasonal acclimation of the photosynthetic parameters under varying environmental conditions needed to be identified to fairly estimate the whole-life photosynthesis." @default.
• W2087679265 created "2016-06-24" @default.
• W2087679265 creator A5011578798 @default.
• W2087679265 creator A5013060282 @default.
• W2087679265 creator A5018779933 @default.
• W2087679265 creator A5044981299 @default.
• W2087679265 creator A5050952098 @default.
• W2087679265 creator A5077755311 @default.
• W2087679265 date "2012-03-01" @default.
• W2087679265 modified "2023-09-26" @default.
• W2087679265 title "Acclimation of photosynthesis in a boreal grass (Phalaris arundinacea L.) under different temperature, CO₂, and soil water regimes" @default.
• W2087679265 cites W173919591 @default.
• W2087679265 cites W1970771468 @default.
• W2087679265 cites W1972675008 @default.
• W2087679265 cites W1975375069 @default.
• W2087679265 cites W1977690519 @default.
• W2087679265 cites W1983308701 @default.
• W2087679265 cites W1988763797 @default.
• W2087679265 cites W1994833711 @default.
• W2087679265 cites W2009539651 @default.
• W2087679265 cites W2024040398 @default.
• W2087679265 cites W2036069847 @default.
• W2087679265 cites W2038149629 @default.
• W2087679265 cites W2041221259 @default.
• W2087679265 cites W2042788247 @default.
• W2087679265 cites W2046857879 @default.
• W2087679265 cites W2059944350 @default.
• W2087679265 cites W2064514108 @default.
• W2087679265 cites W2065269132 @default.
• W2087679265 cites W2072932097 @default.
• W2087679265 cites W2090537248 @default.
• W2087679265 cites W2092732938 @default.
• W2087679265 cites W2095820913 @default.
• W2087679265 cites W2101707536 @default.
• W2087679265 cites W2110129850 @default.
• W2087679265 cites W2110216981 @default.
• W2087679265 cites W2110272572 @default.
• W2087679265 cites W2117540044 @default.
• W2087679265 cites W2120677560 @default.
• W2087679265 cites W2124069878 @default.
• W2087679265 cites W2135286033 @default.
• W2087679265 cites W2136043818 @default.
• W2087679265 cites W2139223636 @default.
• W2087679265 cites W2141488040 @default.
• W2087679265 cites W2148177348 @default.
• W2087679265 cites W2155388502 @default.
• W2087679265 cites W2157366717 @default.
• W2087679265 cites W2160474674 @default.
• W2087679265 cites W2167483116 @default.
• W2087679265 cites W2169110569 @default.
• W2087679265 cites W2170214026 @default.
• W2087679265 cites W3088859894 @default.
• W2087679265 doi "https://doi.org/10.1007/s11099-012-0014-x" @default.
• W2087679265 hasPublicationYear "2012" @default.
• W2087679265 type Work @default.
• W2087679265 sameAs 2087679265 @default.
• W2087679265 citedByCount "32" @default.
• W2087679265 countsByYear W20876792652012 @default.
• W2087679265 countsByYear W20876792652013 @default.
• W2087679265 countsByYear W20876792652014 @default.
• W2087679265 countsByYear W20876792652015 @default.
• W2087679265 countsByYear W20876792652016 @default.
• W2087679265 countsByYear W20876792652017 @default.
• W2087679265 countsByYear W20876792652018 @default.
• W2087679265 countsByYear W20876792652019 @default.
• W2087679265 countsByYear W20876792652020 @default.
• W2087679265 countsByYear W20876792652021 @default.
• W2087679265 countsByYear W20876792652022 @default.
• W2087679265 crossrefType "journal-article" @default.
• W2087679265 hasAuthorship W2087679265A5011578798 @default.
• W2087679265 hasAuthorship W2087679265A5013060282 @default.
• W2087679265 hasAuthorship W2087679265A5018779933 @default.
• W2087679265 hasAuthorship W2087679265A5044981299 @default.
• W2087679265 hasAuthorship W2087679265A5050952098 @default.
• W2087679265 hasAuthorship W2087679265A5077755311 @default.
• W2087679265 hasBestOaLocation W20876792651 @default.
• W2087679265 hasConcept C119406331 @default.
• W2087679265 hasConcept C140793950 @default.
• W2087679265 hasConcept C144027150 @default.
• W2087679265 hasConcept C159750122 @default.
• W2087679265 hasConcept C183688256 @default.
• W2087679265 hasConcept C185592680 @default.
• W2087679265 hasConcept C18903297 @default.
• W2087679265 hasConcept C2778512508 @default.
• W2087679265 hasConcept C50212798 @default.
• W2087679265 hasConcept C59822182 @default.
• W2087679265 hasConcept C67715294 @default.
• W2087679265 hasConcept C86803240 @default.
• W2087679265 hasConceptScore W2087679265C119406331 @default.
• W2087679265 hasConceptScore W2087679265C140793950 @default.
• W2087679265 hasConceptScore W2087679265C144027150 @default.
• W2087679265 hasConceptScore W2087679265C159750122 @default.
• W2087679265 hasConceptScore W2087679265C183688256 @default.
• W2087679265 hasConceptScore W2087679265C185592680 @default.
• W2087679265 hasConceptScore W2087679265C18903297 @default.
• W2087679265 hasConceptScore W2087679265C2778512508 @default.
• W2087679265 hasConceptScore W2087679265C50212798 @default.
• W2087679265 hasConceptScore W2087679265C59822182 @default.

• next