杨继镐, 王国祥, 华网坤, 等. 1993. 太行山适地适树评价. 北京:中国林业出版社, 233. (Yang J G, Wang G X, Hua W K, et al. 1993. Evaluation of matching tree species with site in Taihang Mountain. Beijing:China Forestry Publishing House,233.[in Chinese]) Arbaugh M J, Peterson D L. 1993. Stemwood production patterns in ponderosa pine:effects of stand dynamics and other factors. Research Paper Psw, 7(217):R1-11. Barczi J F, Rey H, Caraglio Y, et al. 2008.AmapSim:a structural whole-plant simulator based on botanical knowledge and designed to host external functional models. Annals of Botany, 101(8):1125-1138. Biondi F, Qeadan F. 2008. A theory-driven approach to tree-ring standardization:defining the biological trend from expected basal area increment. Tree-Ring Research, 64(2):81-96. Bouriaud O, Bréda N, Dupouey J L, et al. 2005. Is ring width a reliable proxy for stem-biomass increment? A case study in European beech. Canadian Journal of Forest Research, 35(12):2920-2933. Carmean W H. 1972. Site index curves for upland oaks in the central states. Forest Science,18(2):109-120. Chenlemuge T, Schuldt B, Dulamsuren C, et al. 2015. Stem increment and hydraulic architecture of a boreal conifer (Larix sibirica) under contrasting macroclimates. Trees, 29(3):623-636. Chhin S, Hogg E H, Lieffers V J, et al. 2010. Growth-climate relationships vary with height along the stem in lodgepole pine. Tree Physiology, 30(3):335-345. Corona P, Romagnoli M, Torrini L. 1995. Stem annual increments as ecobiological indicators in Turkey oak (Quercus cerris L.). Trees, 10(1):13-19. Cortini F, Groot A, Filipescu C N. 2013. Models of the longitudinal distribution of ring area as a function of tree and stand attributes for four major Canadian conifers. Annals of Forest Science, 70(6):637-648. Courbet F. 1999. A three-segmented model for the vertical distribution of annual ring area:application to Cedrus atlantica Manetti. Forest Ecology and Management, 119(1/3):177-194. Dean T J, Roberts S D, Gilmore D W, et al. 2002. An evaluation of the uniform stress hypothesis based on stem geometry in selected North American conifers. Trees, 16:559-568. Deleuze C, Houllier F. 2002. A flexible radial increment taper equation derived from a process-based carbon partitioning model. Annals of Forest Science, 59(2):141-154. Deleuze C, Houllier F.1995. Prediction of stem profile of Picea abies using a process-based tree growth model. Tree Physiology, 15(2):113-120. Enquist B J. 2002. Universal scaling in tree and vascular plant allometry:toward a general quantitative theory linking plant form and function from cells to ecosystems. Tree Physiology, 22(15/16):1045-1064. Fonweban J, Gardiner B, Macdonald E. 2011. Taper functions for Scots pine (Pinus sylvestris L.) and Sitka spruce (Picea sitchensis (Bong.) Carr.) in Northern Britain. Forestry,84:49-60. Gaffrey D, Sloboda B. 2001. Three mechanics, hydraulics and needle mass distribution as a possible basis for explaining the dynamics of stem morphology. Journal of Forest Science, 6:241-254. Grier C C, Waring R H. 1974. Notes:conifer foliage mass related to sapwood area. Forest Science, 20(3):205-206. Jajr K, Maguire D A. 2000. Influence of vertical foliage structure on the distribution of stem cross-sectional area increment in western hemlock and balsam fir. Forest Science, 46(1):86-94. Kershaw A, Maguire A. 2000. Influence of vertical foliage structure on the distribution of stem cross-sectional area increment in western hemlock and balsam fir. Forest Science, 46(1):86-94. Latte N, Lebourgeois F, Claessens H. 2016. Growth partitioning within beech trees (Fagus sylvatica L.) varies in response to summer heat waves and related droughts. Trees, 30(1):189-201. Leblanc D C. 1990. Relationships between breast-height and whole-stem growth indices for red spruce on Whiteface Mountain, New York. Canadian Journal of Forest Research, 20(9):1399-1407. Lehnebach R, Beyer R, Letort V, et al. 2018. The pipe model theory half a century on:a review. Annals of Botany, 5:1-23. Lovisolo C, Schubert A, Sorce C. 2002. Are xylem radial development and hydraulic conductivity in downwardly-growing grapevine shoots influenced by perturbed auxin metabolism? New Phytologist,156:65-74. Marchand P J. 2011. Sapwood area as an estimator of foliage biomass and projected leaf are. Canadian Journal of Forest Research, 14(14):85-87. Max T A, Burkhart H E. 1976. Segmented polynomial regression applied to taper equations. Forest Science, 22:283-289. Moore J R, Cown D J, Lee J R, et al. 2014. The influence of stem guying on radial growth, stem form and internal resin features in radiata pine. Trees, 28(4):1197-1207. Ogawa K. 2015. Mathematical consideration of the pipe model theory in woody plant species. Trees,29(3):695-704. Pressler M R. 1864. Das gesetz der stammbildung. Arnoldische Buchhandlung, Leipzig, 153. Shinozaki K, Yoda K, Hozumi K, et al. 1964. A quantitative analysis of plant form-the pipe model theory. I. Basic analyses. Japanese Journal of Ecology, 14:97-105 Stancioiu P T, O'Hara K L. 2005. Sapwood area-leaf area relationships for coast redwood. Canadian Journal of Forest Research, 35(5):1250-1255. Stephenc S, Robert V P, Georgew K, et al. 2010. Increasing wood production through old age in tall trees. Forest Ecology & Management, 259(5):976-994. Uggla C, Mellerowicz E J, Sundberg B. 1998. Indole-3-acetic acid controls cambial growth in scots pine by positional signaling. Plant Physiology, 117(1):113. West G B, Brown J H, Enquist B J. 1999. A general model for the structure and allometry of plant vascular systems. Nature, 400(6745):664-667. |