References
- Aoyama K, Yoshida T, Kamitani T. 2009. An alternative of soil scarification treatment for forest restoration: effects of soil replacement. J For Res. 14:58–62.
- Ares A, Terry TA, Miller RE, Anderson HW, Flaming BL. 2005. Ground-based forest harvesting effects on soil physical properties and Douglas-fir growth. Soil Sci Soc Am J. 69:1822–1832.
- Benayas JMR, Bullock JM. 2012. Restoration of biodiversity and ecosystem services on agricultural land. Ecosystems. 15:883–899.
- Benvenuti S, Macchia M, Miele S. 2001. Quantitative analysis of emergence of seedlings from buried weed seeds with increasing soil depth. Weed Sci. 49:528–535.
- Beven K, Germann P. 1982. Macropores and water flow in soils. Water Resour Res. 18:1311–1325.
- Butchart SH, Walpole M, Collen B, Van Strien A, Scharlemann JP, Almond RE, Baillie JEM, Bomhard B, Brown C, Bruno J, et al. 2010. Global biodiversity: indicators of recent declines. Science. 328:1164–1168.
- Cossalter C, Pye-Smith C. 2003. Fast-wood forestry: myths and realities. Vol. 1. Jakarta: CIFOR.
- Davidson EA, Belk E, Boone RD. 1998. Soil water content and temperature as independent or confounded factors controlling soil respiration in a temperate mixed hardwood forest. Glob Chang Biol. 4:217–227.
- Finkeldey R, Ziehe M. 2004. Genetic implications of silvicultural regimes. For Ecol Manage. 197:231–244.
- Fløistad IS, Hylen G, Hanssen KH, Granhus A. 2018. Germination and seedling establishment of Norway spruce (Picea abies) after clear-cutting is affected by timing of soil scarification. New For. 49:231–247.
- Gomez A, Powers RF, Singer MJ, Horwath WR. 2002. Soil compaction effects on growth of young ponderosa pine following litter removal in California’s Sierra Nevada. Soil Sci Soc Am J. 66:1334–1343.
- González-Rodríguez V, Navarro-Cerrillo RM, Villar R. 2011. Artificial regeneration with Quercus ilex L. and Quercus suber L. by direct seeding and planting in southern Spain. Ann For Sci. 68:637–646.
- Goto S, Tsuda S. 2007. Scarification for promoting sustainable resource management of Betula maximowicziana in a second-growth forest. [in Japanese with English summary] J Jpn For Soc. 86:138–143.
- Haruki M, Itagaki T, Namikawa K. 1992. Forest construction in the Doran river watershed, Nakagawa experimental forest, Hokkaido University. [in Japanese] Res Bull Coll Exp For Hokkaido Univ. 49:121–184.
- Ito E, Hashimoto T, Aizawa S, Ishibashi S. 2018. Contemporary significance of soil scarification for promoting tree regeneration in Hokkaido, northern Japan. [in Japanese with English summary] Jpn J For Environ. 60:71–82.
- Kohm KA, Franklin JF, Eds.. 1997. Creating a forestry for the 21st century: the science of ecosytem management. Washington, DC: Island Press.
- Löf M, Dey DC, Navarro RM, Jacobs DF. 2012. Mechanical site preparation for forest restoration. New For. 43:825–848.
- Madsen P. 1995. Effects of soil water content, fertilization, light, weed competition and seedbed type on natural regeneration of beech (Fagus sylvatica). For Ecol Manage. 72:251–264.
- Matsumoto J, Okubo T. 1977. Experimental study on heat transfer characteristics of soils. [in Japanese] Proc Jpn Soc Civil Eng. 257:53–60.
- McNabb DH, Startsev AD, Nguyen H. 2001. Soil wetness and traffic level effects on bulk density and air-filled porosity of compacted boreal forest soils. Soil Sci Soc Am J. 65:1238–1247.
- Messier C, Puettmann KJ, Coates KD. 2013. Managing forests as complex adaptive systems: building resilience to the challenge of global change. Oxford: Routledge.
- Narukawa Y, Yamamoto S. 2002. Effects of dwarf bamboo (Sasa sp.) and forest floor microsites on conifer seedling recruitment in a subalpine forest, Japan. For Ecol Manage. 163:61–70.
- Nippert JB, Knapp AK. 2007. Linking water uptake with rooting patterns in grassland species. Oecologia. 153:261–272.
- Noguchi M, Yoshida T. 2004. Tree regeneration in partially cut conifer–hardwood mixed forests in northern Japan: roles of establishment substrate and dwarf bamboo. For Ecol Manage. 190:335–344.
- Norton LD. 1987. Micromorphological study of surface seals developed under simulated rainfall. Geoderma. 40:127–140.
- Nyland RD. 2016. Silviculture: concepts and applications. Illinois: Waveland Press.
- Onda Y, Yugawa N. 1995. The influences of understories on infiltration rates in Chamaecyparis obtusa plantations (II) laboratory experiments. [in Japanese with English summary] J Jpn For Soc. 77:399–407.
- Osumi K, Sakurai S. 1997. Seedling emergence of Betula maximowicziana following human disturbance and the role of buried viable seeds. For Ecol Manage. 93:235–243.
- Osumi K, Sakurai S. 2002. The unstable fate of seedlings of the small-seeded pioneer tree species, Betula maximowicziana. For Ecol Manage. 160:85–95.
- Page-Dumroese DS, Jurgensen MF, Tiarks AE, Ponder, Jr. F Jr, Sanchez FG, Fleming RL, Kranabetter JM, Powers RF, Stone DM, Elioff JD, et al. 2006. Soil physical property changes at the North American long-term soil productivity study sites: 1 and 5 years after compaction. Can J For Res. 36:551–564.
- Prévost M, Raymond P, Lussier JM. 2010. Regeneration dynamics after patch cutting and scarification in yellow birch–conifer stands. Can J For Res. 40:357–369.
- R Development Core Team. 2019. R: A language and environment for statistical computing. Vienna: R Foundation for Statistical Computing. [accessed 2019 May 20]. http://www.R-project.org/
- Resco de Dios VR, Yoshida T, Iga Y. 2005. Effects of topsoil removal by soil-scarification on regeneration dynamics of mixed forests in Hokkaido, Northern Japan. For Ecol Manage. 215:138–148.
- Reyes J, Thiers O, Gerding V. 2014. Characterization of soil properties of Nothofagus spp. forest with and without scarification in the Andean region of southern Chile. J Soil Sci Plant Nutr. 14:101–113.
- Sato H. 1998. Regeneration or many tree species by soil scarification under canopies (I) -Mechanisms from seed dispersal to seedling establishment-. [in Japanese] Bull Hokkaido For Res Inst. 35:21–30.
- Schütz JP. 1999. Close-to-nature silviculture: is this concept compatible with species diversity? Forestry. 72:359–366.
- Shono K, Cadaweng EA, Durst PB. 2007. Application of assisted natural regeneration to restore degraded tropical forestlands. Restor Ecol. 15:620–626.
- Siegel-Issem CM, Burger JA, Powers RF, Ponder F, Patterson SC. 2005. Seedling root growth as a function of soil density and water content. Soil Sci Soc Am J. 69:215–226.
- Siry JP, Cubbage FW, Ahmed MR. 2005. Sustainable forest management: global trends and opportunities. For Policy Econ. 7:551–561.
- Skinner RH, Comas LH. 2010. Root distribution of temperate forage species subjected to water and nitrogen stress. Crop Sci. 50:2178–2185.
- Tatewaki M. 1971. Forest vegetation in the Teshio and Nakagawa District experiment forests of Hokkaido University, Prov. Teshio, N. Hokkaido, Japan. [in Japanese with English summary] Res Bull Coll Exp For Faculty Agric Hokkaido Uni. 28:1–192.
- Thompson I, Mackey B, McNulty S, Mosseler A. 2009. Forest resilience, biodiversity, and climate change. In secretariat of the convention on biological diversity, Montreal. Tech Ser. 43:1–67.
- Tsuyuzaki S. 1987. Origin of plants recovering on the volcano Usu, northern Japan, since the eruptions of 1977 and 1978. Vegetatio. 73:53–58.
- Tsuyuzaki S. 1989. Analysis of revegetation dynamics on the volcano Usu, northern Japan, deforested by 1977–1978 eruptions. Am J Bot. 76:1468–1477.
- Umeki K. 2003. The regeneration of natural forests on Hokkaido, Northern Japan. [in Japanese with English summary] J Jpn For Soc. 85:246–251.
- Umezawa S. 2007. Wild flower of Hokkaido. [in Japanese]. Sapporo: Hokkaido University Press.
- Weaver JE. 1958. Classification of root systems of forbs of grassland and a consideration of their significance. Ecology. 39:393–401.
- Yamazaki H, Yoshida T. 2018. Significance and limitation of scarification treatments on early establishment of Betula maximowicziana, a tree species producing buried seeds: effects of surface soil retention. J For Res. 23:166–172.
- Yildiz O, Eşen D, Sarginci M. 2009. Long‐term site productivity effects of different Rhododendron control methods in eastern beech (Fagus orientalis Lipsky) ecosystems in the Western Black Sea region of Turkey. Soil Use Manage. 25:28–33.
- Yonekura K, Kajita T 2003. YList. [accessed 2019 Sept 15]. http://ylist.info
- Yoshida T, Iga Y, Ozawa M, Noguchi M, Shibata H. 2005. Factors influencing early vegetation establishment following soil scarification in a mixed forest in northern Japan. Can J For Res. 35:175–188.
- Zaczek JJ. 2002. Composition, diversity, and height of tree regeneration, 3 years after soil scarification in a mixed-oak shelterwood. For Ecol Manage. 163:205–215.