[1] |
岳剑云, 杜常健, 纪 敬, 等. 银杏枝条部位和年龄对不定根形成的影响及其与非结构碳水化合物含量的关系[J]. 林业科学研究, 2018, 31(5):153-158. |
[2] |
Hall D B, Clutter M. Multivariate multilevel nonlinear mixed effects models for timber yield predictions[J]. Biometrics, 2004, 60(1): 16-24. |
[3] |
Thurig E, Kaufmann E, Frisullo R, et al. Evaluation of the growth function of an empirical forestscenarimodel[J]. Forest Ecology & Management, 2005, 204(1): 53-68. |
[4] |
Michel A K, Winter S. Tree microhabitat structures as indicators of biodiversity in Douglas-fir forests of differentstand ages and management histories in the Pacific Northwest, U. S. A[J]. Forest Ecology & Management, 2009, 257(6): 1453-1464. |
[5] |
Wong C M, Lertzman K P. Errors in estimating tree age: implications for studies of stand dynamics[J]. Canadian Journal of Forest Research, 2001, 31(31): 1262-1271. |
[6] |
Rozas V. Tree age estimates in Fagus sylvatica and Quercus robur: testing previous and improved methods[J]. Plant Ecology, 2003, 167(2): 193-212. |
[7] |
陈永富. 基准年龄立地质量评价的影响分析[J]. 林业科学研究, 2010, 23(2):283-287. |
[8] |
Carey V J, Wang Y G. Mixed-effects models in S and S-Plus[J]. Publications of the American Statistical Association, 2000, 96(455): 1135-1136. |
[9] |
Loewenstein E F, Johnson P S, Garrett H E. Age and diameter structure of a managed uneven-aged oak forest[J]. Canadian Journal of Forest Research, 2000, 30(7): 1060-1070. |
[10] |
Trotsiuk V, Hobi M L, Commarmot B. Age structure and disturbance dynamics of the relic virgin beech forest Uholka (Ukrainian Carpathians)[J]. Forest Ecology & Management, 2012, 265(1): 181-190. |
[11] |
Oberhuber W, Kofler W. Topographic influences on radial growth of Scots pine (Pinus sylvestris L.) at small spatial scales[J]. Plant Ecology, 2000, 146(2): 229-238. |
[12] |
Rohner B, Bugmann H, Bigler C. Towards non-destructive estimation of tree age[J]. Forest Ecology & Management, 2013, 304(4): 286-295. |
[13] |
Wang S Y, Chiu C M, Lin C J. Application of the drilling resistance method for annual ring characteristics: evaluation of Taiwania (Taiwania cryptomerioides) trees grown with different thinning and pruning treatments[J]. Journal of Wood Science, 2003, 49(2): 116-124. |
[14] |
Szewczyk G, Wąsik R, Leszczyński K, et al. Age estimation of different tree species using a special kind of an electrically recording resistance drill[J]. Urban Forestry & Urban Greening, 2018, 34(2018): 249-253. |
[15] |
Orozco-Aguilar L, Nitschke C R, Livesley S J, et al. Testing the accuracy of resistance drilling to assess tree growth rate and the relationship to past climatic conditions[J]. Urban Forestry and Urban Greening, 2018, 36(2018): 1-12. |
[16] |
Oh J A, Seo J W, Kim B R. Verifying the possibility of investigating tree ages using resistograph[J]. Journal of the Korean Wood Science and Technology, 2019, 47(1): 90-100. |
[17] |
Chantre G, Rozenberg P. Can drill resistance profiles (Resistograph) lead to within-profile and within-ring density parameters in Douglas fir wood[C]. Timber management toward wood quality and end product value Proceedings of the CTIA/IUFRO International Wood Quality Workshop, Quebec City, Canada, August 18-22, 1997: Ⅱ. 41-Ⅱ. 46. |
[18] |
Claus Mattheck, Bethge K, Albrecht W. How to read the results of resistograph[J]. Arboricultural Association Journal, 1997, 21(4): 331-346. |
[19] |
Seo J W, Choi E B, Ju J D, et al. The association of intra-annual cambial activities of Pinus koraiensis and Chamae cyparispisifera planted in Mt. Worak with climatic factors[J]. Journal of the Korean Wood Science & Technology, 2017, 45(1): 43-52. |
[20] |
Jeong H M, Kim Y J, Seo J W. Relationships between vessel-lumen-area time series of Quercus spp. at Mt. Songni and corresponding climatic factors[J]. Journal of the Korean Wood Science and Technology, 2017, 45(1): 72-84. |