Sylvie A. Quideau scite author profile

Many forested landscapes around the world are severely altered during mining for their rich mineral and energy reserves. Herein we provide an overview of the challenges inherent in efforts to restore mined landscapes to functioning forest ecosystems and present a synthesis of recent progress using examples from North America, Europe and Australia. We end with recommendations for further elaboration of the Forestry Reclamation Approach emphasizing: (1) Landform reconstruction modelled on natural systems and creation of topographic heterogeneity at a variety of scales; (2) Use and placement of overburden, capping materials and organic amendments to facilitate soil development processes and create a suitable rooting medium for trees; (3) Alignment of landform, topography, overburden, soil and tree species to create a diversity of target ecosystem types; (4) Combining optimization of stock type and planting techniques with early planting of a diversity of tree species; (5) Encouraging natural regeneration as much as possible; (6) Utilizing direct placement of forest floor material combined with seeding of native species to rapidly re-establish native forest understory vegetation; (7) Selective ongoing management to encourage development along the desired successional trajectory.

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Comparative Analysis of Cellulose Preparation Techniques for Use with¹³C,¹⁴C, and¹⁸O Isotopic Measurements

Gaudinski

et al. 2005

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A number of operationally defined methods exist for pretreating plant tissues in order to measure C, N, and O isotopes. Because these isotope measurements are used to infer information about environmental conditions that existed at the time of tissue growth, it is important that these pretreatments remove compounds that may have exchanged isotopes or have been synthesized after the original formation of these tissues. In stable isotope studies, many pretreatment methods focus on isolating "cellulose" from the bulk tissue sample because cellulose does not exchange C and O isotopes after original synthesis. We investigated the efficacy of three commonly applied pretreatment methods, the Brendel method and two variants of the Brendel method, the Jayme-Wise method and successive acid/base/acid washes, for use on three tissue types (wood, leaves, roots). We then compared the effect of each method on C and O isotope composition ( 13 C, 14 C, 18 O), C and N content, and chemical composition of the residue produced (using 13 C nuclear magnetic resonance (NMR)). Our results raised concerns over use of the Brendel method as published, as it both added C and N to the sample and left a residue that contains remnant lipids and waxes. Furthermore, this method resulted in 18 O values that are enriched relative to the other methods. Modifying the Brendel method by adding a NaOH step (wash) solved many of these problems. We also found that processed residues vary by tissue type. For wood and root tissues, the 13 C NMR spectra and the 18 O and 13 C data showed only small differences between residues for the Jayme-Wise and

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Sylvie A. Quideau

Forest restoration following surface mining disturbance: challenges and solutions

Comparative Analysis of Cellulose Preparation Techniques for Use with¹³C,¹⁴C, and¹⁸O Isotopic Measurements

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Sylvie A. Quideau

Forest restoration following surface mining disturbance: challenges and solutions

Comparative Analysis of Cellulose Preparation Techniques for Use with13C,14C, and18O Isotopic Measurements

Contact Info

Product

Resources

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Comparative Analysis of Cellulose Preparation Techniques for Use with¹³C,¹⁴C, and¹⁸O Isotopic Measurements