Allometric relationships in coppice biomass production for two North American willows (Salix spp.) across three different sites

详细信息    查看全文

• 作者：A. Mosseler^a ; ^{amosseler@nrcan.gc.ca" class="auth_mail} ; J.E. Major^a ; M. Labrecque^b ; G.R. Larocque^c
• 关键词：Allometric relationships ; Biomass yield ; North American Salix species ; Site quality effects ; Willow coppice structure
• 刊名：Forest Ecology and Management
• 出版年：15 May, 2014
• 年：2014
• 卷：320
• 期：Complete
• 页码：190-196
• 全文大小：482 K

文摘

Biomass yield and component coppice growth traits were assessed for two native North American willow species, Salix discolor (DIS) and Salix eriocephala (ERI), established together in clonally replicated common garden field tests on three sites of differing quality but similar climates. These willows are widely distributed across eastern and central Canada and were selected for use in biomass production plantations. There was no species effect on the average stem length-diameter relationship, but there was a strong site effect. Increased number of stems within a plant decreases average stem diameter but not average stem length. Yield is positively related to site quality and number of stems per plant but also to the interaction between species and number of stems per plant. Allometric relationships between stem basal diameter, stem length, number of stems per plant, and biomass yield (t ha^鈭?) clearly reflected site quality differences and could be used in the same way that stem height at a specific age has been used for single stemmed trees to define site quality (site index) in forest timber production. Plant stem length and basal stem diameter measurements on up to 20 stems per plant indicated that measurements based on the average of the three longest stems per plant had the strongest relationship to biomass yield (R² = 0.813) and that the average stem diameter of the three largest stems had the strongest relationship to biomass yield (R² = 0.781).