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• W2134891082 abstract "Stomatal density, anatomy and nutrient concentrations of Scots pine ( Pinus sylvestris L.) needles were studied during 3 years of growth at elevated CO 2 (693 ± 30 m mol mol - 1 ), at elevated temperature (ambient + 2·8-6·2 ∞ C depending on the time of the year) and in a combination of elevated CO 2 and temperature in closed-top chambers. The treatments were started in August 1996. At elevated temperature, the needles that were grown in the first year (i.e. the 1997 cohort) were thinner, had thinner mesophyll in the abaxial side, thinner vascular cylinder and lower stomatal density than those grown at ambient temperature. The proportion of mesophyll area occupied by vascular cylinder or inter- cellular spaces were not changed. Lower stomatal density apparently did not lead to decreased use of water, as these needles had higher concentrations of less mobile nutrients (Ca, Mg, B, Zn and Mn), which could indicate increased total transpiration. In the 1997 and 1998 cohorts, elevation of temperature decreased concentrations of N, P, K, S and Cu. In the 1999 cohort, contradictory, higher concentrations of N and S at elevated temperature may be related to increased nutrient mineralization in the soil. Elevation of CO 2 did not affect stomatal density, needle thickness, thick- ness of epidermis or hypodermis, vascular cylinder or inter- cellular spaces. Concentrations of N, P, S and Cu decreased at elevated CO 2 . Reductions were transient and most dis- tinct in the 1997 cohort. The effects of CO 2 and temperature were in some cases interactive, which meant that in the combined treatment stomatal density decreased less than at elevated temperature, and concentrations of nutrients decreased less than expected on the basis of separate treat- ments, whereas the thickness of the epidermis and hypo- dermis decreased more than in the separate treatments. In conclusion, alterations in the anatomy and stomatal density of Scots pine needles were more distinct at elevated tem- perature than at elevated CO 2 . Both elevated CO 2 and tem- perature-induced changes in nutrient concentrations that partly corresponded to the biochemical and photosynthetic alterations in the same cohorts (Luomala et al. Plant, Cell and Environment 26, 645-660, 2003) Reductions in nutri- ent concentrations and alterations in the anatomy were transient and more evident in the needle cohort that was grown in the first treatment year." @default.
• W2134891082 created "2016-06-24" @default.
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• W2134891082 date "2005-06-01" @default.
• W2134891082 modified "2023-09-29" @default.
• W2134891082 title "Stomatal density, anatomy and nutrient concentrations of Scots pine needles are affected by elevated CO2 and temperature" @default.
• W2134891082 cites W1548802581 @default.
• W2134891082 cites W1562852132 @default.
• W2134891082 cites W1598038432 @default.
• W2134891082 cites W1915087864 @default.
• W2134891082 cites W1969457471 @default.
• W2134891082 cites W1971267371 @default.
• W2134891082 cites W1979057852 @default.
• W2134891082 cites W1985808132 @default.
• W2134891082 cites W1993957606 @default.
• W2134891082 cites W1996310570 @default.
• W2134891082 cites W1997204189 @default.
• W2134891082 cites W1999462387 @default.
• W2134891082 cites W2002084264 @default.
• W2134891082 cites W2009034744 @default.
• W2134891082 cites W2009241652 @default.
• W2134891082 cites W2013326271 @default.
• W2134891082 cites W2017123983 @default.
• W2134891082 cites W2019258007 @default.
• W2134891082 cites W2020339767 @default.
• W2134891082 cites W2023034930 @default.
• W2134891082 cites W2024138128 @default.
• W2134891082 cites W2025483180 @default.
• W2134891082 cites W2031708620 @default.
• W2134891082 cites W2040660456 @default.
• W2134891082 cites W2050560199 @default.
• W2134891082 cites W2052061533 @default.
• W2134891082 cites W2063333840 @default.
• W2134891082 cites W2071662948 @default.
• W2134891082 cites W2073391762 @default.
• W2134891082 cites W2079667610 @default.
• W2134891082 cites W2081418895 @default.
• W2134891082 cites W2087372048 @default.
• W2134891082 cites W2087403283 @default.
• W2134891082 cites W2087536101 @default.
• W2134891082 cites W2088283943 @default.
• W2134891082 cites W2090145987 @default.
• W2134891082 cites W2091986829 @default.
• W2134891082 cites W2094872080 @default.
• W2134891082 cites W2097145908 @default.
• W2134891082 cites W2099264530 @default.
• W2134891082 cites W2102425227 @default.
• W2134891082 cites W2103672978 @default.
• W2134891082 cites W2105816658 @default.
• W2134891082 cites W2108338666 @default.
• W2134891082 cites W2108356966 @default.
• W2134891082 cites W2110612327 @default.
• W2134891082 cites W2111403145 @default.
• W2134891082 cites W2118098529 @default.
• W2134891082 cites W2119026703 @default.
• W2134891082 cites W2120457905 @default.
• W2134891082 cites W2126779819 @default.
• W2134891082 cites W2127063881 @default.
• W2134891082 cites W2131996957 @default.
• W2134891082 cites W2132262982 @default.
• W2134891082 cites W2132563033 @default.
• W2134891082 cites W2139064005 @default.
• W2134891082 cites W2143962859 @default.
• W2134891082 cites W2144445670 @default.
• W2134891082 cites W2150824947 @default.
• W2134891082 cites W2157912201 @default.
• W2134891082 cites W2160172456 @default.
• W2134891082 cites W2166905193 @default.
• W2134891082 cites W2167417840 @default.
• W2134891082 cites W2170441826 @default.
• W2134891082 cites W2178711053 @default.
• W2134891082 cites W2222186230 @default.
• W2134891082 cites W2317887394 @default.
• W2134891082 cites W2320651003 @default.
• W2134891082 cites W266994963 @default.
• W2134891082 cites W4234044826 @default.
• W2134891082 cites W4249061334 @default.
• W2134891082 cites W4250669988 @default.
• W2134891082 cites W4302383021 @default.
• W2134891082 doi "https://doi.org/10.1111/j.1365-3040.2005.01319.x" @default.
• W2134891082 hasPublicationYear "2005" @default.
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