Abstract
Recently, several studies have shown changing relationships between tree growth and climate factors, mostly in the circumpolar north. There, changing relationships with climate seem to be linked to emergent subpopulation behavior. Here, we test for these phenomena in Northwest China using three tree species (Pinus tabulaeformis, Picea crassifolia, and Sabina przewalskii) that had been collected from six sites at Qilian Mts. and Helan Mts. in Northwest China. We first checked for growth divergence of individual sites and then investigated the relationship between tree growth and climate factors using moving correlation functions (CF). Two species, Pinus and Sabina, from two sites clearly showed growth divergence, not only in the late twentieth century as reported in other studies, but also over nearly the whole record. In divergent sites, one chronology shows more stable relationships with climate factors (usually precipitation). In non-divergent sites, nearly all relationships either vary in strength or become non-significant at one point. While this might possibly be related to increased stress on some trees due to increasing temperature, the exact causes for this shift in sensitivity remain unclear. We would like to highlight the necessity for additional studies investigating possible non-stationary growth responses of trees with climate, especially at sites that are used for climate reconstruction as our sites in Northwest China.
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References
Barber V, Juday G, Finney B (2000) Reduced growth of Alaska white spruce in the twentieth century from temperature-induced drought stress. Nature 405:668–672. doi:10.1038/35015049
Biondi F (1997) Evolutionary and moving response functions in dendroclimatology. Dendrochronologia 15:139–150
Biondi F, Waikul K (2004) DENDROCLIM2002: a C++ program for statistical calibration of climate signals in tree-ring chronologies. Comput Geosci 30:303–311. doi:10.1016/j.cageo.2003.11.004
Briffa K, Schweingruber F, Jones P, Osborn T (1998a) Reduced sensitivity of recent tree growth to temperature at high northern latitudes. Nature 391:678–682. doi:10.1038/35596
Briffa K, Schweingruber F, Jones P, Osborn T, Harris I, Shiyatov S et al (1998b) Trees tell of past change climates: but are they speaking less clearly today? Philos Trans R Soc Lond B Biol Sci 353:65–73. doi:10.1098/rstb.1998.0191
Carrer M, Urbinati C (2006) Long-term change in the sensitivity of tree-ring growth to climate forcing in Larix decidua. New Phytol 170:861–872. doi:10.1111/j.1469-8137.2006.01703.x
Chabot BF, Hicks DJ (1982) The ecology of leaf life spans. Annu Rev Ecol Syst 13:229–259. doi:10.1146/annurev.es.13.110182.001305
Cook ER (1985) A time series approach to tree-ring standardization. PhD thesis, University of Arizona
Cook ER, Kairiukstis LA (1990) Methods of dendrochronology. Kluwer, Dordrecht
Cook ER, Peters K (1997) Calculating unbiased tree-ring indices for the study of climatic and environmental change. Holocene 7:361–370. doi:10.1177/095968369700700314
D’Arrigo R, Kaufmann R, Davi N, Jacoby G, Laskowski C, Myneni R et al (2004) Thresholds for warming-induced growth decline at elevational treeline in the Yukon Territory. Global Biogeochem Cycles 18:GB3021. doi:10.1029/2004GBO02249
D’Arrigo R, Wilson R, Liepert B, Cherubini P (2008) On the “divergence problem” in northern forests: a review of tree-ring evidence and possible causes. Global Planet Change 60:289–305. doi:10.1016/j.gloplacha.2007.03.004
Ding YH (1994) Monsoon over China. Kluwer Academic Publisher
Driscoll W, Wiles G, D’Arrigo R, Wilmking M (2005) Divergent tree growth response to recent climatic warming, Lake Clark National Park and Preserve, Alaska. Geophys Res Lett 32:L20703. doi:10.1029/2005GL024258
Fritts HC (1976) Tree ring and climate. Academic Press, London
Gao SY, Lu RJ, Qiang MR (2005) Reconstruction of precipitation in the last 140 years from tree ring at south margin of the Tengger Desert, China. Chin Sci Bull 50(21):2487–2492. doi:10.1360/982005-363
Gou XH, Chen FH, Wang YJ, Shao XM (2001) Spring precipitation reconstructed in the east of the Qilian Mountain during the last 280 a by tree ring width. J Glaciol Geocryol 23(3):292–296 (in Chinese)
Greenough G, McGeehin M, Bernard SM (2001) The potential impacts of climate variability and change on health impacts of extreme weather events in the United States. Environ Health Perspect 109(Suppl. 2):191–198
Havranek M, Tranquillini W (1995) Physiological processes during their winter dormancy and their ecological significance. In: Smith WK, Hinkley TM (eds) Ecophysiology of coniferous forest. Academic Press, New York, pp 95–124
Holmes RL (1983) Computer-assisted quality control in tree-ring dating and measurement. Tree Ring Bull 43:69–78
Hoyt D (2006) Urban heat islands and land use changes. http://www.warwickhughes.com/hoyt/uhi.htm
Hughes MK (2002) Dendrochronology in climatology—the state of the art. Dendrochronologia 20:95–116. doi:10.1078/1125-7865-00011
IPCC Fourth AR (2007) Summary for policy makers In: Climate change 2007 Cambridge University Press, Cambridge
Jacoby GC, D’Arrigo R (1995) Tree-ring width and density evidence of climatic and potential forest change in Alaska. Global Biogeochem Cycles 9:227–234. doi:10.1029/95GB00321
Jacoby GC, D’Arrigo R, Davaajamts TS (1996) Mongolian tree rings and twentieth century warming. Science 273:771–773. doi:10.1126/science.273.5276.771
Jacoby GC, Lovelius N, Shumilov O, Raspopov O, Kurbainov J, Frank D (2000) Long-term temperature trends and tree growth in the Taymir region of northern Siberia. Quat Res 53:312–318. doi:10.1006/qres.2000.2130
Julian LH (2000) Effect of daily minimum temperature on photosynthesis in eastern Hemlock (Tsuga canadensis L.) in Autumn and Winter. Arct Antarct Alp Res 32(4):368–374. doi:10.2307/1552384
Kahn ME (2005) The death toll from natural disasters: the role of income, geography, and institutions. Rev Econ Stat 87(2):271–284. doi:10.1162/0034653053970339
Kang XC, Chen GD, Kang ES, Zhang QH (2002) Based tree rings data reconstruction over 1000-year streamflow of mountain pass in Heihe River. Sci China Ser Dokl Earth Sci 32(8):675–685
Knapp PA, Soule PT, Grissino MHD (2001) Detecting potential regional effects of increased atmospheric CO2 on growth rates of western Juniper. Glob Change Biol 7:903–917. doi:10.1046/j.1365-2486.2001.00452.x
Liu Y, Shi JF, Shishov V (2004) Reconstruction of May–July precipitation in the north Helan Mountain, Inner Mongolia since AD 1726 from tree-ring late-wood widths. Chin Sci Bull 49(4):405–409. doi:10.1360/03WD0409
Liu Y, Cai QF, Shi JF (2005) Seasonal precipitation in the south-central Helan Mountain region, China, reconstructed from tree-ring width for the past 224 years. Can J For Res 35(10):2403–2412. doi:10.1139/x05-168
Lloyd A, Fastie C (2002) Spatial and temporal variability in the growth and climate response of treeline trees in Alaska. Clim Change 52:481–509. doi:10.1023/A:1014278819094
Ma ZG, Fu CB (2006) Some evidence of drying trend over northern China from 1951 to 2004. Chin Sci Bull 51:2913–2925. doi:10.1007/s11434-006-2159-0
Melvin T (2004) Historical growth rates and changing climatic sensitivity of boreal conifers. Ph.D. thesis, Climatic Research Unit, East Anglia
Mitchell T, Jones PD (2005) An improved method of constructing a database of monthly climate observations and associated high-resolution grids. Int J Climatol 25:693–712. doi:10.1002/joc.1181
Oberhuber W (2004) Influence of climate on radial growth of Pinus cembra within the alpine timberline ecotone. Tree Physiol 24:291–301
Pisaric M, Carey S, Kokelj S, Youngblut D (2007) Anomalous 20th century tree growth, MackenzieDelta, Northwest Territories, Canada. Geophys Res Lett 34:L05714. doi:10.1029/2006GL029139
Schaberg IG, Snyder MC, Shane JB, Donnelly JR (2000) Seasonal patterns of carbohydrate reserves in red spruce seedlings. Tree Physiol 20:549–555
Sergio R, Annie D, Tommaso A, Vinicio C (2007) Evidence of threshold temperatures for xylogenesis in conifers at high altitudes. Oecologia 152:1–12. doi:10.1007/s00442-006-0625-7
Shao XM, Huang L, Liu HB (2004) Reconstruction of precipitation variation from tree rings in recent 1000 years in Delingha, Qinghai. Sci China Ser Dokl Earth Sci 34(2):145–153
Shao XM, Li EY, Huang L, Wang LL (2005) A 1437-year precipitation history from Qilian Juniper in the Northeastern Qinghai-Tibetan Plateau. PAGES News 13(2):14–15
Shepherd A, Wingham D (2007) Recent sea-level contributions of the Antarctic and Greenland ice sheets. Science 315(5818):1529–1532. doi:10.1126/science.1136776
Shi J, Liu Y, Vaganov EA, Li J, Cai Q (2008) Statistical and process-based modeling analyses of tree growth response to climate in semi-arid area of north central China: a case study of Pinus tabulaeformis. J Geophys Res 113:G01026. doi:10.1029/2007JG000547
Smith KT, Cufar K, Levanic T (1999) Temporal stability and dendroclimatology in silver fir and red spruce. Phyton Ann Rei Bot 39:117–122
Solberg BO, Hofgaard A, Hytteborn H (2002) Shifts in radial growth responses of coastal Picea abies induced by climatic change during the 20th century, central Norway. Ecoscience 9:79–88
Vaganov EA, Hughes MK, Kirdyanov AV, Schweingruber FH, Silkin PP (1999) Influence of snowfall and melt timing on tree growth in subarctic Eurasia. Nature 400:149–151. doi:10.1038/22087
Wang Y, Zhou L (2005) Observed trends in extreme precipitation events in China during 1961–2001 and the associated changes in large-scale circulation. Geophys Res Lett 32:L09707. doi:10.1029/2005GL022574
Wang YJ, Chen FH, Gou XH, Du SY (2001) Study on response relationship between tree-ring and climate factors and climate reconstruction in middle region of Qilianshan Mountains. J Desert Res 21(2):135–140 (in Chinese)
Webster PJ, Holland GJ, Curry JA, Chang HR (2005) Changes in tropical cyclone number, duration, and intensity in a warming environment. Science 309(5742):1844–1846. doi:10.1126/science.1116448
Wigley TL, Briffa KR, Jones PD (1984) On the average value of correlated time series, with applications in dendroclimatology and hydrometeorology. J Clim Appl Meteorol 23:201–213. doi :10.1175/1520-0450(1984)023<0201:OTAVOC>2.0.CO;2
Wilmking M, Myers-Smith I (2008) Changing climate sensitivity of black spruce in a peatland-forest landscape in interior Alaska. Dendrochronologia. doi:10.1016/j.dendro.2007.04.003
Wilmking M, Juday GP, Barber VA, Zald HSJ (2004) Recent climate warming forces contrasting growth responses of white spruce at treeline in Alaska through temperature thresholds. Global Change Biol 10:1724–1736. doi:10.1111/j.1365-2486.2004.00826.x
Wilmking M, D’Arrigo R, Jacoby G, Juday G (2005) Divergent growth responses in circumpolar boreal forests. Geophys Res Lett 32:L15715. doi:10.1029/2005GLO23331
Wilson R, Elling W (2004) Temporal instability in tree-growth/climate response in the Lower Bavarian Forest region: implications for dendroclimatic reconstruction. Trees Struct Funct 18:19–28. doi:10.1007/s00468-003-0273-z
Wilson R, Luckman BH (2002) Tree-ring reconstruction of maximum and minimum temperatures and the diurnal temperature range in British Columbia, Canada. Dendrochronologia 20(3):257–268. doi:10.1078/1125-7865-00023
Wilson R, Luckman BH (2003) Dendroclimatic reconstruction of maximum summer temperatures from upper tree-line sites in interior British Columbia. Holocene 13(6):853–863. doi:10.1191/0959683603hl663rp
Yonenobu H, Eckstein D (2006) Reconstruction of early spring temperature for central Japan from the tree-ring widths of Hinoki cypress and its verification by other proxy records. Geophys Res Lett 33:L10701. doi:10.1029/2006GL026170
Yuan YJ, Jin LY, Shao XM (2003) Variations of the spring precipitation day numbers reconstructed from tree rings in the Urumqi River drainage, Tianshan Mts. over the last 370 years. Chin Sci Bull 48(14):1507–1510. doi:10.1360/02wd0251
Zhai P, Zhang X, Wan H, Pan X (2005) Trends in total precipitation and frequency of daily precipitation extremes over China. J Clim 18:1096–1108. doi:10.1175/JCLI-3318.1
Zhang ZH, Wu XD (1996) The change and rapid shifts of moisture index and its annual variability since 1310 A.D. in Qilianshan area. Quat Sci 4:368–378 (in Chinese)
Zhang ZH, Wu XD (1997) Reconstruction of climate variation in the last 700 years in the Qi Lian Mountain area using tree-ring data. Chin Sci Bull 42(8):849–851 (in Chinese)
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We thank Dr. Jayendra Singh and Jinbao Li for discussing and help.
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Zhang, Y., Wilmking, M. & Gou, X. Changing relationships between tree growth and climate in Northwest China. Plant Ecol 201, 39–50 (2009). https://doi.org/10.1007/s11258-008-9478-y
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DOI: https://doi.org/10.1007/s11258-008-9478-y