WinDENDRO年轮分析技术

WinDendro Tring Ring Analyser System
WinDendro 年轮分析系统
一、用途：
WinDENDRO是植物年轮测量及分析的系统。

测量操作简单，提供全数字化电脑图形分析。

二、原理：
WinDENDRO是利用高质量的图形扫描系统取代传统的摄象机系统。

扫描系统能提供高分辨率的彩色图象和黑白图象。

采用专门的照明系统去除了阴影和不均匀现象的影响，有效的保证了图象的质量。

增大了扫描区域，以供分析。

还可以读取TIFF标准格式的图象。

可以分析树木年轮及其它相关参数（比如最小、最大和平均密度，早材宽度等）。

WinDENDRO可以分析树木年轮盘、树芯和X光片。

三、组成：
1、WinDENDRO年轮分析软件（基本版/标准版/密度版），Win XP，WIN 7操作系统。

2、扫描仪：各型号扫描仪之间区别如下
3、样品芯固定系统与样品芯定位工具
固定系统三种规格：22 cm适用于STD和LA
36 cm仅适用于LA
43 cm仅适用于LA
4、XLSTEM茎杆分析插件（For MS-EXCEL）可选件
5、电脑（最低配置：Pentium IV / 512 MB内存/ 19"显示器）用户自备
四、基本技术指标：
* 密度版软件需要对LA2400、STD4800扫描仪预装特殊光源
**基本版软件一年免费升级，标准和密度版二年免费升级
五、产地：
加拿大
六、参考文献
1.Abrams M. D., C. M. Ruffner & T. A. Morgan. 1998. Tree-Ring Responses to Drought Across
Species and Contrasting Sites in the Ridge and Valley of Central Pennsylvania. Forest Science, Vol. 44, No. 4, pp. 550-558.
2.Abrams M. D., D. A. Orwig, & M. J. Dockry. 1997. Dendroecology and successional status of
two contrasting old-growth oak forests in the Blue Ridge Mountains, U.S.A.,. Canadian Journal of Forest Research, Vol. 27, pp. 994-1002.
3.Boer M. M., C. Macfarlane, J. Norris, R. J. Sadler, J. Wallace, P. F. Grierson. 2008. Mapping
burned areas and burn severity patterns in SW Australian eucalypt forest using remotely-sensed changes in leaf area index. Remote Sensing of Environment 112 (2008) 4358-4369.
4.Campbell R., D. McCarroll, N. J. Loader, H. Grudd, I. Roberston & R. Jalkanen. 2007. Blue
intensity in Pinus sylvestris tree-rings: developing a new palaeoclimate proxy. The Holocene 17,6 (2007) pp. 821-828.
5.Carter R., S. LeRoy, T. Nelson, C.P. Laroque, D.J. Smith. 1999. Dendroglaciological
investigations at Hilda Creek rock glacier, Banff National Park, Canadian Rocky mountains.
Géographie physique et Quaternaire, 1999, Vol. 53, No. 3.
6.Codding, Dana. 2000. Tree ring research yields clues to Pacific climate change. The University
of Victoria. http://web.uvic.ca/ucom/Ring/00feb18/treering.html. [Online March 2, 2000].
7.Duncker P., M. Warensjoe. Detection and classification of compression wood. Forestry
Commission. /forestry/ggae-5ggeax.
8.Fagan M.E., D.R. Peart. Impact of the invasive shrub glossy buckthorn (Rhamnus frangula L.)
on juvenile recruitment by canopy trees. Forest Ecology ad Management 194 (2004), pp. 95-107 9.Guay R., R. Gagnon & H. Morin. 1990. A new automatic and interactive tree-ring measurement
system based on a line scan camera. Tree rings and Environment, Proceedings of the International Dendrochronological Symposium (LUNDQUA Report 34), Ystad, SWEDEN, 3-9 Sept. 1990.
10.Guay R., R. Gagnon & H. Morin. 1992. A new automatic and interactive tree-ring measurement
system based on a line scan camera. The Forestry Chronicle, Feb. 1992, Vol. 68, no. 1, pp.138-141.
11.Guay R., R. Gagnon & H. Morin. 1992. Tree-Ring Density And The Concept of Virtual Slit.
IUFRO ALL-DIVISION 5 meeting, August 23-28 1992, Nancy, FRANCE.
12.Guay R. 1997. Morphing Technology Applied to Digital Tree Ring Density Measurement.
Poster presented at IUFRO, Forest Products for Sustainable Forestry, Pullman, WA, USA, July 1997.
13.Ivkovich M. & Koshy P. M. 1997. Wood density measurement: comparison of X-ray,
photometric, and morphomeric methods. In proceedings: Timber Management Toward Wood Quality and End-Product Value. Proceedings of the 26th Biannual Meeting of the Canadian Tree Improvement Association and International Workshop on Wood Quality (CTIA/IUFRO), August 1997, Quebec City, pp 55-58.
rocque S.J., D.J. Smith. 2005. A dendroclimatological reconstruction of climate since AD
1700 in the Mt. Waddington area, British Columbia Coast Mountains, Canada.
Dendrochronologia 22 (2005) pp 93-106.
15.Lindgren B.S., K.J. Lewis. The natural role of sprue beetle and root pathogens in a sub-boreal
spruce forest in central British Columbia: A retrospective study. Faculty of Natural Resources and Environmental Studies, University of Northern British Columbia.
16.Lopez B.C., S. Sabaté, C.A. Gracia, R. Rodriguez. Wood anatomy, description of annual rings,
and responses to ENSO events of Prosopis pallida H.B.K., a wide-spread woody plant of arid and semi-arid lands of Latin America. Journal of Arid Environment 61 (2005) 541-554.
17.Mailly Daniel, Melanie Gaudreault. 2005. Growth intercept models for black spruce, jack pine
and balsam fir in Quebec. The Forestry Chronicle. January/February 2005, Vol. 81, No. 1. 18.Markussen, T., M. Fladung, V. Achere, J.M. Favre, P. Faivre-Rampant, A. Aragones, D. Da
Silva Perez, L. Harvengt, S. Espinel and E. Ritter. Identification of QTLs Controlling Growth, Chemical and Physical Wood Property Traits in Pinus pinaster (Ait.). Silvae Genetica 52, 1 (2003), pp 8-15.
19.Munson A.D., K. Smith, R. Horvath, J.-C. Ruel, C.-H. Ung, P.-Y. Bernier. 1999. Does
harvesting (CPRS) mimic fire? Verifying for black spruce forests in central Québec.
Sustainable Forest Management Network. ISBN: 1-55261-025-X.
20.Nieuwenhuis M., F. Barrett. An assessment of the growth potential of birch in Ireland. Crop
Science, Horticulture and Forestry. Faculty of Agriculture Research Report 2000-2001. Pp 59-60.
21.Persson E., A. Elsander, H. Fryk, T. Lind. 2002. Storage of spruce pulpwood for mechanical
pulping. Part 1. Effects on wood properties and industrially produced pulp. The Swedish University of Agricultural Sciences. Department of Forest Products and Markets. ISSN: 1651-0704.
22.Rittie D. & P. Gelhaye. 2002. Détermination d’un seuil de séparation pour la mesure des
largeurs de bois initial et final sur l’épicéa commun (Piecea abies Karst. Bulletin des techniques de l’INRA.
23.Santilli Maurizio, Manuela Pelfini, Michele Citterio, Stefano Turri. 2005. Landscape history in
the subalpine karst region of Moncodeno (Lombardy Prealps, Northern Italy).
Dendrochronologia 23 (2005) pp 19-27.
24.Santoro A. E., M. J. Lombardero, M. P. Ayres & J. J. Ruel. 2001. Interactions between fire and
dark beetles in an old growth pine forest. Forest Ecology and Management, Vol. 144, pp.
245-254.
25.Sheppard P. R. 1995. Reflected-Light Image Analysis of Conifer Tree Rings for
Dendrochronological Research. Ph.D. Thesis 1995, Department of Geosciences, University of Arizona.
26.Schweingruber F. H. Tree Rings: Basic and Applications of Dendrochronology. D. Reidel
Publishing Company
27.Wood Density Measurement: Comparison of X-Ray, Photometric, and Morphometric Methods.
Department of Forest Sciences, The University of British Columbia, 270-2357 Main Mall, Vancouver, B.C. V6T 1Z4, Canada.
28.Wu Harry X., A. Colin Matheson & Aljoy Arbaquez. 2002. Inbreeding in Pinus radiata. IV: the
effect of inbreeding on wood density. Ann. For. Sci. 59 (2002), pp. 557-562.
29.Zhang Q.B. & RenéI. Alfaro. 2002. Periodicity of Two-Year Cycle Spruce Budworm
Outbreaks in Central British Columbia: A Dendro-Ecological Analysis. Forest Science, November 2002, Vol. 48, No. 4, pp. 722-731.。