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強酸性土壌における造林樹種の選定(補足)

酸性および強酸性土壌に耐性を持つ樹種

アカネ科

  • Coffea arabica(WAC)

ニシキギ科

  • Lophopetalum javanicum(PROSEA)

フジウツギ科

  • Fagraea fragrans(田原, 2005)

フタバガキ科

  • Anisoptera marginata(PROSEA)

フトモモ科

  • Eucalyptus alba(田原, 2005)
  • Eucalyptus camaldulensis(田原ら, 2018、森ら, 1996)
  • Melaleuca arcana(田原, 2005)
  • Melaleuca cajuputi(田原, 2005)
  • Melaleuca leucadendra(田原, 2005)
  • Syzygium lineatum(田原, 2005)
  • Syzygium oblatum(田原, 2005)
  • Syzygium pachyphyllum(田原, 2005)
  • Syzygium scortechinii(田原, 2005)
  • Syzygium zeylanicum(田原, 2005)

マメ科

  • Acacia auriculiformis(Duguma et al、Powell, 1996、WAC)
  • Acacia cincinnata(Cole et al)
  • Acacia crassicarpa(Cole et al、WAC)
  • Acacia koa(Powell, 1996)
  • Acacia mangium(Cole et al、Duguma et al、PROSEA、Powell, 1996、WAC、田原, 2005、森ら, 1996)
  • Acacia mearnsii(Powell, 1996)
  • Albizia lebbeck(Powell, 1996)
  • Albizia saman(Powell, 1996)
  • Calliandra calothyrsus(Duguma et al、Powell, 1996)
  • Cassia siamea(Duguma et al)
  • Enterolobium cyclocarpum(Powell, 1996)
  • Erythrina variegata(Powell, 1996)
  • Falcataria moluccana(Duguma et al、Powell, 1996)
  • Flemingia macrophylla(Powell, 1996)
  • Gliricidia sepium(Powell, 1996、森ら, 1996)
  • Inga edulis(Powell, 1996)
  • Mimosa scabrella(Powell, 1996)
  • Pithecellobium dulce(Powell, 1996)
  • Pterocarpus indicus(Powell, 1996)
  • Robinia pseudoacacia(Powell, 1996)

ムクロジ科

  • Nephelium lappaceum(PROSEA)

モクマオウ科

  • Casuarina junghuhniana(Powell, 1996)

文献

  1. Appleton B., Heins R., Donohue S., Eaton G., Williams J. Trees and Shrubs for Acid Soils. Virginia Cooperative Extension Publication 430-027.
    https://pubs.ext.vt.edu/content/dam/pubs_ext_vt_edu/430/430-027/430-027_pdf.pdf
  2. Cole T. G., Yost R. S., Kablan R., Olsen T. (1996) Growth potential of twelve Acacia species on acid soils in Hawaii. Forest Ecology and Management, Volume 80, Issues 1–3, January 1996, Pages 175-186.
    https://doi.org/10.1016/0378-1127(95)03610-5
  3. Duguma, B., Tonye, J., Kanmegne, J. et al. (1994) Growth of ten multipurpose tree species on acid soils in Sangmelima, Cameroon. Agroforest Syst 1994 27: 107.
    https://doi.org/10.1007/BF00705468
  4. Powell M. H. (1996) Nitrogen Fixing Trees for Acid Soils – a Field Manual. Winrock International Institute for Agricultural Development, Morrilton, Arkansas.
    http://www.asb.cgiar.org/publication/nitrogen-fixing-trees-acid-soils-field-manual
  5. Plant Resources of South-East Asia (PROSEA).World Agroforestry Centre (WAC). Agroforestree Database.
    http://www.worldagroforestry.org/resources/databases/agroforestree
  6. 小山博之・河津哲 (2004) 分子改良による植林樹木ユーカリの酸性土壌耐性強化戦略. 化学と生物 Vol. 42, No. 10.
    https://www.jstage.jst.go.jp/article/kagakutoseibutsu1962/42/10/42_10_651/_pdf/-char/ja
  7. 田原 恒 (2005) Melaleuca cajuputiのアルミニウム耐性機構.
    https://ci.nii.ac.jp/naid/500000340181?l=en
  8. 田原 恒、西口 満、Andrej Frolov、Juliane Mittasch、Carsten Milkowski (2018) Identification of UDP glucosyltransferases from the aluminum-resistant tree Eucalyptus camaldulensis forming β-glucogallin, the precursor of hydrolyzable tannins. Phytochemistry、152巻 154-161、Elsevier、2018年5月発行.
    https://doi.org/10.1016/j.phytochem.2018.05.005
  9. 森徳典ら(1996-97)熱帯樹種の造林特性 第1-3巻. 国際緑化推進センター