Abstract
• Background and purpose
A complex interplay between biotic and abiotic factors is believed to be responsible for several oak declines in pedunculate oak (Quercus robur L.). This study aims to clarify the temporal process of oak declines, as well as identifying individual tree and environmental variables that affects growth rate and that may increase the risk of mortality. The study was performed in southern Sweden at three sites.
• Findings
Cross-dating revealed that most trees had died during the last decade and that the growth rates of the dead oaks were affected long before death. Averaged growth chronologies of dead and control trees reaching 150 years back in time illustrated an excellent match up until around 1992, when a severe drought occurred after which the dead trees started to express reduced growth. Precipitation the previous year during August–September and during March–June this current year was of significant importance for oak growth. Site-specific results that showed that dead trees: included fewer small-sized trees, grew on non-clay soils, were more likely to have shelf fungus and cavities and were exposed to less sunshine.
• Conclusion
The results support the theories that oak mortality is a long process that may be induced decades before the actual death.
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Notes
The international tree-ring data bank. Satellite and Information Service (NOAA). Available at: ftp://ftp.ncdc.noaa.gov/pub/data/paleo/treering/chronologies/europe/pola006.crn Accessed on 7 October 2008.
References
Barklund P (2002) Ekskador i Europa. Rapport 2002:1. Skogsstyrelsens förlag, Jönköping. ISS: 1100-0295. In Swedish
Bednarz Z (1990) The influence of temperature and precipitation on ring widths of oak (Quercus robur L.) in the Niepolomice forest near Cracow, Southern Poland. Tree-ring Bull 50:1–10
Bréda N, Badeau V (2008) Forest tree responses to extreme drought and some biotic events: towards a selection according to hazard tolerance? C R Geosciences 340:651–662
Čufar K, De Luis M, Zupancic M, Eckstein D (2008) A 548-year long tree-ring chronology of oak (Quercus spp.) for SE Slovenia and its significance as dating tool and climate archive. Tree-ring Res 64:3–15
Davies ZG, Tyler C, Stewart GB, Pullin AS (2008) Are current management recommendations for saproxylic invertebrates effective? A systematic review. Biodivers Conserv 17:209–234
Dreyer E (1994) Water stress, xylem dysfunctions and dieback mechanisms in European oak trees. STEP Research Programme CT90 0050C, Final Report. Champenoux, France: INRA Nancy
Drobyshev I, Linderson H, Sonesson K (2007) Temporal mortality pattern of pedunculate oaks in southern Sweden. Dendrochronologia 24:97–108
Drobyshev I, Niklasson M, Eggertsson O, Linderson H, Sonesson K (2008a) Influence of annual weather on growth of pedunculate oak in southern Sweden. Ann For Sci 65:512
Drobyshev I, Niklasson M, Linderson H, Sonesson K, Karlsson M, Nilsson SG, Lanner J (2008b) Lifespan and mortality of old oaks—combining empirical and modelling approaches to support their management in Southern Sweden. Ann For Sci 65:401
Esseen PA, Glimskär A, Ståhl G, Sundquist S (2007) Field instructions for the national inventory of the landscape in Sweden. SLU, Department of Forest Resource Management. www.resgeom.slu.se/resana/NILS/Publikationer/NILS_manual_fält_2007_English.pdf
Friedrichs DA, Buntgen U, Frank DC, Esper J, Neuwirth B, Loffler J (2008) Complex climate controls on 20th century oak growth in Central-West Germany. Tree Physiol 29:39–51
Glimskär A, Bergman K-O, Claesson K, Sundquist S (2007) Fältinstruktion för fjärilar, humlor, grova träd och lavar i ängs- och betesmarker. NILS 2007. SLU, Institutionen för skoglig resurshushållning och geomatik. In Swedish. www.resgeom.slu.se/resana/NILS/Publikationer/NILS_manual_ÄoB_%202007.pdf
Haavik LJ, Stephen FM, Fierke MK, Salisbury VB, Leavitt SW, Billings SA (2008) Dendrochronological parameters of northern red oak (Quercus rubra L. (Fagaceae)) infested with red oak borer (Enaphalodes rufulus (Haldeman) (Coleoptera: Cerambycidae)). For Ecol Manag 225:1501–1509
Hannah L, Carr JL, Lankerani A (1995) Human disturbance and natural habitat: a biome level analysis of a global data set. Biodivers Conserv 4:128–155
Heinrich I, Weidner K, Helle G, Vos H, Banks JCG (2008) Hydroclimatic variation in Far North Queensland since 1860 inferred from tree rings. Palaeogeogr Palaeoclimatol Palaeoecol 270:116–127
Jonsson U, Jung T, Sonesson K, Rosengren U (2005) Relationships between health of Quercus robur, occurrence of Phytophthora species and site conditions in southern Sweden. Plant Pathol 54:502–511
Jung T, Blaschake H, Osswald W (2000) Involvement of soilborn Phytophthora species in Central European oak decline and the effect of site factors on the disease. Plant Pathol 49:706–718
Karlström CE (1993) 1992-Torka, skyfall och rekordsnö. Väder och vatten, SMHI 1: 2-7. In Swedish
Karlström CE (2003) Årets väder 2003. Väder och vatten, SMHI 13. In Swedish
Karlström CE (2004) Årets väder 2004. Väder och vatten, SMHI 13. In Swedish
Kelly PM, Leuschner HH, Briffa KR, Harris IC (2002) The climatic interpretation of pan-European signature years in oak ring-width series. Holocene 12:689–694
Kinney KK, Lindroth RL, Jung SM, Nordheim EV (1997) Effects of CO2 and NO3- availability on deciduous trees: phytochemistry and insect performance. Ecology 78:215–230
Lebourgeois F, Cousseau G, Ducos Y (2004) Climate-tree-growth relationships of Quercus petraea Mill. stand in the Forest of Bercé (“Futaie des Clos”, Sarthe, France). Ann For Sci 61:361–372
Legendre P, Dallot S, Legendre L (1985) Succession of species within a community: chronological clustering, with applications to marine and freshwater zooplankton. Am Nat 125:257–288
Marcais B, Bréda N (2006) Role of an opportunistic pathogen in the decline of stressed oak trees. J Ecol 94:1214–1223
Marçais B, Caël O (2001) Relation between Collybia fusipes root rot and growth of pedunculate oak. Can J For Res 31:757–764
Neuwirth B, Esper J, Schweingruber FH, Winiger M (2004) Site ecological differences to the climatic forcing of spruce pointer years from the Lötschental, Switzerland. Dendrochronologica 21:69–78
Neuwirth B, Schweingruber FH, Winiger M (2007) Spatial patterns of central European pointer years from 1901 to 1971. Dendrochronologia 24:79–89
Pedersen BS (1998) The role of stress in the mortality of Midwestern oaks as indicated by growth prior to death. Ecology 79:79–93
Pilcher JR, Gray B (1982) The relationships between oak tree growth and climate in Britain. J Ecol 70:297–304
Ranius T, Niklasson M, Berg N (2009) Development of tree hollows in pedunculate oak (Quercus robur). For Ecol Manag 257:303–310
Rozas V (2002) Detecting the impact of climate and disturbances on tree-rings of Fagus sylvatica L. and Quercus robur L. in a lowland forest in Cantabria, Northern Spain. Ann For Sci 58:237–251
Rubtsov VV (1996) Influence of repeated defoliations by insects on wood increment in common oak (Quercus robur L). Ann For Sci 53:407–412
Thomas FM (2008) Recent advances in cause-effect research on oak decline in Europe. CAB Reviews: Perspectives in Agriculture, Veterinary Science, Nutrition and Natural Resources 2008 3, No 037
Thomas FM, Blank R (1996) The effect of excess nitrogen and of insect defoliation on the frost hardiness of bark tissue of adult oaks. Ann For Sci 53:395–406
Thomas FM, Hartmann G (1996) Soil and tree water relations in mature oak stands of northern Germany differing in the degree of decline. Ann For Sci 53:697–720
Thomas FM, Blank R, Hartmann G (2002) Abiotic and biotic factors and their interactions as causes of oak decline in Central Europe. For Pathol 32:277–307
Xu CY, Griffin KL (2006) Seasonal variation in the temperature response of leaf respiration in Quercus rubra: foliage respiration and leaf properties. Funct Ecol 20:778–789
Vedin H (2004) Östergötlands klimat. Väder och vatten 10. In Swedish
Wiles GC, Calkin PE, Jacoby GC (1996) Tree-ring analysis and Quaternary geology: principles and recent applications. Geomorphology 16:259–272
Acknowledgments
We thank Thure Gabriel Bielke for permission to study oaks on his land. We are also grateful to Igor Drobyshev and Lars-Åke Larsson for providing valuable advice and Sylvia Pardonnet for french translation.
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Andersson, M., Milberg, P. & Bergman, KO. Low pre-death growth rates of oak (Quercus robur L.)—Is oak death a long-term process induced by dry years?. Annals of Forest Science 68, 159–168 (2011). https://doi.org/10.1007/s13595-011-0017-y
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DOI: https://doi.org/10.1007/s13595-011-0017-y