Oak decline analyzed using intraannual radial growth indices, [delta]^sup 13^C series and climate data from a rural hemiboreal landscape in southwesternmost Finland

Decline of pedunculate oak (Quercus robur L.) was studied in SW Finland. This is a region where the species is growing near its northern distributional limit globally and a recent decline of mature trees has been described regionally. Tree rings of declining oaks were compared to the chronologies of...

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Bibliographic Details
Published inEnvironmental monitoring and assessment Vol. 186; no. 8; p. 4697
Main Authors Helama, S, Läänelaid, A, Raisio, J, Mäkelä, H M, Hilasvuori, E, Jungner, H, Sonninen, E
Format Journal Article
LanguageEnglish
Published Dordrecht Springer Nature B.V 01.08.2014
Subjects
Carbon
Climate
Climatic data
Death & dying
Drought
Environmental monitoring
Growing season
Isotopes
Precipitation
Rural areas
Stable isotopes
Studies
Summer
Trees
Water use
Water use efficiency
Finland
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Summary:Decline of pedunculate oak (Quercus robur L.) was studied in SW Finland. This is a region where the species is growing near its northern distributional limit globally and a recent decline of mature trees has been described regionally. Tree rings of declining oaks were compared to the chronologies of healthy and oaks that died, climate series and stable isotope discrimination of carbon (δ^sup 13^C) of comparable mature trees. The radial growth (earlywood, latewood, and annual ring width) of declining oaks was clearly deteriorated in comparison to healthy oaks, but recuperated, compared to oaks that died, through all index types. Comparison of climate relationships between growth and δ^sup 13^C, expected to reflect oaks' intrinsic water use efficiency, indicated enhancing resistance to droughts through the growing season. The growth and the climatic growth response was differentiated in declining oaks as compared with the healthy and oaks that died revealing that: (1) declining oaks exhibited decreasing competitive strength as indicated by reduced overall growth relative to healthy oaks, (2) the growth of declining oaks was more sensitive to winter conditions, but less restricted by summer droughts than the growth of other oaks, and (3) healthy oaks were seen having benefitted from the ongoing lengthening of the growing season. Lack of correlativity between growth and δ^sup 13^C became evident as their responses to temperature and precipitation variations deviated drastically during the other but summer months. Our results indicate that several different ecological factors, rather than a single climatic factor (e.g., drought), are controlling the oak decline in the studied environment. [PUBLICATION ABSTRACT]
ISSN:0167-6369
1573-2959
DOI:10.1007/s10661-014-3731-8