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2018 | 66 | 2 |

Tytuł artykułu

Age and climate sensitivity of radial growth of Picea crassifolia to climate in a transitional climatic zone in Northwest China

Warianty tytułu

Języki publikacji

EN

Abstrakty

EN
Study of the radial growth response to climate factors at different tree ages is essential for predicting forest dynamics and formulating correct management policies. In this study, we analysed the growth responsiveness of Picea crassifolia to climate conditions, and evaluated its relationship to tree age at the individual tree scale, in the transitional zone between regions affected by the East Asian monsoon and winds blowing from the west (westerlies) in the Qilian Mountains. On three study sites, 150 cores were taken from 75 trees. Pearson correlation coefficients were calculated between the standardized tree-ring series of each core (and chronology) and climatic factors which were utilized to research the climate-growth relationships. Quadratic polynomial fitting was used to test the relationships between tree age, chronological parameters, and the radial growth response to climate. Radial growth was positively influenced by total precipitation for the previous July-September and the current May-July. Additionally, radial growth was negatively correlated with the total monthly precipitation for the current September, and the mean monthly temperature for the previous July. Trees younger than 80 years old showed a stronger response to accumulative precipitation in the previous July-September, those older than 160 years old showed a stronger response to precipitation at the end of current growing season, while those of 140–160 years old showed a weaker response to precipitation in the current May-July.

Wydawca

-

Rocznik

Tom

66

Numer

2

Opis fizyczny

p.114-125,fig.,ref.

Twórcy

autor
  • School of Geography and Tourism, Shaanxi Normal University, 620 Western Changan Street, Changan District, Xian 710119, Shaanxi, China
autor
  • Faculty of Geographical Science, Beijing Normal University, 19 Xinjiekouwai Street, Haidian District, Beijing 100875, China
autor
  • Faculty of Geographical Science, Beijing Normal University, 19 Xinjiekouwai Street, Haidian District, Beijing 100875, China
autor
  • Ecology Planning Department, Beijing Zhongsen Ecological Landscape Planning and Design Institute, 18 Hepingli East Street, Dongcheng District, Beijing 100001, China

Bibliografia

  • Applequist M.B. 1958 – A simple pith locator for use with off-center increment cores – J. Forest Res. 56: 141.
  • Bigler C., Veblen T.T. 2009 – Increased early growth rates decrease longevities of conifers in subalpine forests – Oikos, 118: 1130–1138.
  • Brown J.M. 1968 – Photosynthetic regime of some southern Arizona ponderosa pine – Ph. D. Thesis, Univ. of Arizona, Tucson.
  • Carrer M., Urbinati C. 2004 – Age-dependent tree-ring growth responses to climate in Larix decidua and Pinus cembra – Ecology, 85: 730–740.
  • Chen F., Yuan Y.J., Wei W.S., Zhang R.B., Yu S.L., Shang H.M., Zhang T.W., Qin L., Wang H.Q., Chen F.H. 2013 – Tree-ringbased annual precipitation reconstruction for the Hexi Corridor, NW China: consequences for climate history on and beyond the mid-latitude Asian continent – Boreas, 42: 1008–1021.
  • Cook E.R. 1985 – A time series analysis approach to tree ring standardization – University of Arizona, Arizona.
  • Cook E.R., Kairiukstis L.A. 1990 – Methods of dendrochronology: applications in the environmental sciences – Kluwer Academic Publishers, Dordrecht, Netherlands.
  • Copenheaver C.A., Crawford C.J., Fearer T.M. 2011 – Age-specific responses to climate identified in the growth of Quercus alba – Trees-Struct. Funct. 25: 647–653.
  • Elliott K.J., Miniat C.F., Pederson N., Laseter S.H. 2015 – Forest tree growth response to hydroclimate variability in the southern Appalachians – Global Change Biol. 21: 4627–4641.
  • Esper J., Niederer R., Bebi P., Frank D. 2008 – Climate signal age effects – Evidence from young and old trees in the Swiss Engadin – Forest Ecol. Manag. 255: 3783–3789.
  • Fang K.Y., Chen D., Gou X.H., D'Arrigo R., Davi N. 2015 – Influence of non-climatic factors on the relationships between tree growth and climate over the Chinese Loess Plateau – Global Planet Change, 132: 54–63.
  • Fritts H. 2012 – Tree rings and climate – Academic Press, London.
  • Fritts H.C. 1966 – Growth-rings of trees: their correlation with climate – Science, 154: 973–979.
  • Gao L.L., Gou X.H., Deng Y., Yang M.X., Zhao Z.Q., Cao Z.Y. 2013 – Dendroclimatic response of Picea crassifolia along an altitudinal gradient in the eastern Qilian Mountains, Northwest China – Arct. Antarct. Alp. Res. 45: 491–499.
  • Gonzalez-Gonzalez B.D., Rozas V., Garcia-Gonzalez I. 2014 – Earlywood vessels of the sub-Mediterranean oak Quercus pyrenaica have greater plasticity and sensitivity than those of the temperate Q. petraea at the Atlantic-Mediterranean boundary – Trees-Struct. Funct. 28: 237–252.
  • Gou X., Chen F., Yang M., Li J., Peng J., Jin L. 2005– Climatic response of thick leaf spruce (Picea crassifolia) tree-ring width at different elevations over Qilian Mountains, northwestern China – J. Arid Environ. 61: 513–524.
  • Griesbauer H.P., Green D.S. 2012 – Geographic and temporal patterns in white spruce climate-growth relationships in Yukon, Canada – Forest Ecol. Manag. 267: 215–227.
  • Haavikl J., Stahled W, Stephenf M. 2011 – Temporal aspects of Quercus rubra decline and relationship to climate in the Ozark and Ouachita Mountains, Arkansas – Can. J. Forest Res. 41: 773–781.
  • Henttonen H.M., Mäkinen H., Heiskanen J., Peltoniemi M., Laurén A., Hordo M. 2014 – Response of radial increment variation of Scots pine to temperature, precipitation and soil water content along a latitudinal gradient across Finland and Estonia – Agr. Forest Meteorol. 198: 294–308.
  • Holmes R.L. 1983 – Computer-assisted quality control in tree-ring dating and measurement – Tree-ring Bulletin, 43: 69–78.
  • Kozlowski T.T. 1992 – Carbohydrate sources and sinks in woody-plants – Bot. Rev. 58: 107–222.
  • Li D.L., Liu D.X. 2000 – Climate in Gansu – China Meteorological Press, Beijing.
  • Li X.X., Liang E.Y., Gričar J., Prislan P., Rossi S., Čufar K. 2013 – Age dependence of xylogenesis and its climatic sensitivity in Smith fir on the south-eastern Tibetan Plateau – Tree Physiol. 33: 48–56.
  • Liang E., Shao X.M., Eckstein D., Liu X.H. 2010 – Spatial variability of tree growth along a latitudinal transect in the Qilian Mountains, northeastern Tibetan Plateau – Can. J. Forest Res. 40: 200–211.
  • Liang E.Y., Shao X.M., Eckstein D., Huang L., Liu X.H. 2006 – Topography- and species-dependent growth responses of Sabina przewalskii and Picea crassifolia to climate on the northeast Tibetan Plateau – Forest Ecol. Manag. 236: 268–277.
  • Liang E.Y., Shao X.M., Liu X.H. 2009 – Annual precipitation variation inferred from tree rings since AD 1770 for the Western Qilian Mts., Northern Tibetan Plateau – Tree-Ring Res. 65: 95–103.
  • Liu X.C. 1992 – Picea crassifolia – Lanzhou University Press, Lanzhou.
  • Lu J.X., Xu J.M., Wu Y.Q., Li X.J., Evans R., Downes G.M. 2015 – Climatic signals in wood property variables of Picea crassifolia – Wood Fiber Sci. 47: 131–140.
  • Luo J., Zang R., Li C. 2006 – Physiological and morphological variations of Picea asperata populations originating from different altitudes in the mountains of southwestern China – Forest Ecol. Manag. 221: 285–290.
  • Lupi C., Morin H., Deslauriers A., Rossi S. 2010 – Xylem phenology and wood production: resolving the chicken - or - egg dilemma – Plant, cell & environment, 33: 1721–1730.
  • McMillan A.M.S., Winston G.C., Goulden M.L. 2008 – Age-dependent response of boreal forest to temperature and rainfall variability – Global Change Biol. 14: 1904–1916.
  • Phillips N., Bond B.J., Mcdowell N.G., Ryan M.G. 2002 – Canopy and hydraulic conductance in young, mature and old Douglas-fir trees – Tree Physiol. 22: 205–211.
  • Primicia I., Camarero J.J., Janda P., Čada V., Morrissey R.C., Trotsiuk V., Bače R., Teodosiu M., Svoboda M. 2015 – Age, competition, disturbance and elevation effects on tree and stand growth response of primary Picea abies forest to climate – Forest Ecol. Manag. 354: 77–86.
  • Rahman M.R., Lateh H. 2015 – Spatio-temporal analysis of warming in Bangladesh using recent observed temperature data and GIS – Clim. Dynam. 46: 2943–960.
  • Ren P., Rossi S., Gricar J., Liang E.Y., Cufar K. 2015 – Is precipitation a trigger for the onset of xylogenesis in Juniperus przewalskii on the north-eastern Tibetan Plateau? – Ann. Bot.-London, 115: 629–639.
  • Rinn F. 2003 – TSAPWin: time series analysis and presentation for dendrochronology and related applications – Frank Rinn, Heidelberg, Germany.
  • Rossi S., Rathgeber C.B.K., Deslauriers A. 2009 – Comparing needle and shoot phenology with xylem development on three conifer species in Italy – Ann. For. Sci. 66: 206.
  • Rozas V., DeSoto L., Olano J.M. 2009 – Sexspecific, age-dependent sensitivity of tree-ring growth to climate in the dioecious tree Juniperus thurifera – New Phytol. 182: 687–697.
  • Ryan M.G., Binkley D., Fownes J.H. 1997 – Age-related decline in forest productivity: pattern and process – Adv. Ecol. Res. 27: 213–262.
  • Schenk H.J., Jackson R.B. 2002 – Rooting depths, lateral root spreads and belowground/above-ground allometries of plants in water-limited ecosystems – J. Ecol. 90: 480–494.
  • Schuster R., Oberhuber W. 2013 – Age-de-pendent climate-growth relationships and regeneration of Picea abies in a droughtprone mixed-coniferous forest in the Alps – Can. J. Forest Res. 43: 609–618.
  • Sun J.Y., Liu Y. 2015 – Age-independent climate-growth response of Chinese pine (Pinus tabulaeformis Carriere) in North China – Trees-Struct. Funct. 29: 397–406.
  • Suvanto S., Nojd P., Henttonen H.M., Beuker E., Makinen H. 2016 – Geographical patterns in the radial growth response of Norway spruce provenances to climatic variation – Agr. Forest Meteorol. 222: 10–20.
  • Tang X., Sun G.W., Qian W.H. 2007 – Study on the northernmost boundary of East-Asian summer monsoon – China Meteorological Press, Beijing.
  • Toromani E., Sanxhaku M., Pasho E. 2011 – Growth responses to climate and drought in silver fir (Abies alba) along an altitudinal gradient in southern Kosovo – Can. J. Forest Res. 41: 1795–1807.
  • Voelker S.L. 2011 – Age-dependent changes in environmental influences on tree growth and their implications for forest responses to climate change – Tree Physiol. 4: 455–479.
  • Wang X., Zhao X., Gao L. 2011 – Age-dependent growth responses of Pinus koraiensis to climate in the north slope of Changbai Mountain, North-Eastern China – Acta Ecol. Sinica, 31: 6378–6387.
  • Wang B., Chen T., Wu G., Xu G., Zhang Y., Gao H., Yong Z., Qi F. 2016a – Qinghai spruce (Picea crassifolia) growth-climate response between lower and upper elevation gradient limits: a case study along a consistent slope in the mid-Qilian Mountains region – Environ. Earth Sci. 75: 1–16.
  • Wang Y., Feng Q., Kang X. 2016b – Tree-ringbased reconstruction of temperature variability (1445–2011) for the upper reaches of the Heihe River Basin, Northwest China – J. Arid Land, 8: 60–76.
  • Wu G.J., Xu G.B., Chen T., Liu X.H., Zhang Y.F., An W.L., Wang W.Z., Fang Z.A., Yu S.L. 2013 – Age-dependent tree-ring growth responses of Schrenk spruce (Picea schrenkiana) to climate - a case study in the Tianshan Mountain, China – Dendrochronologia, 31: 318–326.
  • Xing Q., Liu H., Sun Y., Cui H., Dai J., Li P. 2004 – Response of contemporary tree ring width of Cinnamomum camphora to climate change in Yangchun, Guangdong Province – Acta Ecologica Sinica, 24: 2077–2080.
  • Xu J.M., Lu J.X., Bao F.C., Evans R., Downes G.M. 2013 – Climate response of cell characteristics in tree rings of Picea crassifolia – Holzforschung, 67: 217–225.
  • Xu J.M., Lu J.X., Evans R., Downes G.M. 2014 – Relationship between ring width and tracheid characteristics in Picea crassifolia: implication in dendroclimatology – Bioresources, 9: 2203–2213.
  • Xu Z.L., Zhao C.Y., Feng Z.D. 2012– Species distribution models to estimate the deforested area of Picea Crassifolia in arid region recently protected: Qilian Mts. National Natural Reserve (China) – Pol. J. Ecol. 60: 515–524.
  • Yang Y.T., Guan H.D., Shen M.G., Liang W., Jiang L. 2015 – Changes in autumn vegetation dormancy onset date and the climate controls across temperate ecosystems in China from 1982 to 2010 – Global Change Biol. 21: 652–665.
  • Zhang F., Gou X., Liu W, Levia D.F., Li Y. 2013 – Individual and time-varying treering growth to climate sensitivity of Pinus tabuliformis Carr, and Sabina przewalskii Kom. in the eastern Qilian Mountains, China – Trees-Struct. Funct. 27: 359–370.
  • Zhang L., Jiang Y., Zhao S., Dong M., Chen H.Y.H., Kang X. 2016a – Different responses of the radial growth of conifer species to increasing temperature along altitude gradient: Pinus tabulaeformis in the Helan Mountains (Northwestern China) – Pol. J. Ecol. 64: 509–525.
  • Zhang L., Jiang Y., Zhao S., Kang X., Zhang W, Liu T. 2016b – Lingering response of radial growth of Picea crassifolia to climate at different altitudes in the Qilian Mountains, Northwest China – Trees-Struct. Funct. 31: 455–465.
  • Zhang W., Jiang Y., Wang M., Zhang L., Dong M. 2015 – Topography- and speciesdependent climatic responses in radial growth of Picea meyeri and Larix principis-rupprechtii in the Luyashan Mountains of north-central China – Forests, 6: 116–132.
  • Zhang Y., Shao X., Yin Z.-Y., Tian Q. 2013 – A dendroclimatic analysis of regional moisture variation in the northeastern Tibetan Plateau during the past 150 years – Trees-Struct. Funct. 27: 455–463.
  • Zhao C., Chen L., Ma F., Yao B., Liu J. 2008 – Altitudinal differences in the leaf fitness of juvenile and mature alpine spruce trees (Picea crassifolia) – Tree Physiol. 28: 133–141.

Typ dokumentu

Bibliografia

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