Register      Login
Pacific Conservation Biology Pacific Conservation Biology Society
A journal dedicated to conservation and wildlife management in the Pacific region.
Shopping Cart: ( empty )
You are here: Home > Journals > PC > PC19052
RESEARCH ARTICLE
Contents Vol 27(2)

The impact of ebony wood harvesting on Diospyros samoensis (Ebenaceae) on Vangunu Island, Western Solomon Islands

Ramokasa Anisi A , Alyse de Souza B , Gilianne Brodie C , Randy Thaman A , Stefan Peters B , Laurence W. Jessop D and Gunnar Keppel B E F
+ Author Affiliations
- Author Affiliations

A School of Earth Sciences, Geography & Environment, The University of the South Pacific, Laucala Campus, Suva, Fiji Islands.

B UniSA STEM, University of South Australia, Mawson Lakes Campus, GPO Box 2471, Adelaide, SA 5001, Australia.

C School of Biological & Chemical Sciences, The University of the South Pacific, Laucala Campus, Suva, Fiji Islands.

D c\o Queensland Herbarium, Department of Environment and Science, Brisbane Botanic Gardens, Mt Coot-tha Road, Toowong, Qld 4066, Australia.

E Future Industries Institute, University of South Australia, Mawson Lakes Campus, GPO Box 2471, Adelaide, SA 5001, Australia.

F Corresponding author. Email: gunnar.keppel@unisa.edu.au

Pacific Conservation Biology 27(2) 177-185 https://doi.org/10.1071/PC19052
Submitted: 13 December 2019  Accepted: 24 August 2020   Published: 17 September 2020

Abstract

Ebony wood, the black heartwood of trees in the genus Diospyros, is a high-value commodity of many Pacific Islands. The revenue earned from the sale of ebony carvings is important for many low-income rural communities, resulting in high harvesting pressure and reported declines of ebony-producing species. This study investigates the impact of ebony wood harvesting on species of Diospyros on Vangunu Island, Western Solomon Islands. Diospyros samoensis, locally known as ‘rihe’, was the main source of ebony wood, with D. vera occasionally harvested but producing poorer quality wood. For D. samoensis, we investigated the existing ethnobotanical knowledge and harvesting dynamics using questionnaires and surveyed 11 populations using five 15 × 15 m plots. Although D. samoensis was common throughout the study area, trees with harvestable ebony heartwood were considered rare. The sale of ebony carvings contributed substantially to the livelihood of carvers. Harvesting practices cause considerable damage to the stem and appeared to alter population structure, with fewer seedlings found in stands with higher harvesting intensities (r = −0.704, P = 0.008). Therefore, populations of D. samoensis appear to be negatively impacted by current harvesting practices, which should be modified to (1) cause less damage to individual trees and populations, and (2) protect larger and older trees to help regeneration. Therefore, the increasing rarity of ebony heartwood in the Pacific may not equate to dangerous declines in Diospyros species and implementing low-impact harvesting practices could help improve the health and long-term persistence of Diospyros populations.

Keywords: conservation status, ebony wood, ecology, ethnobotany, forest regeneration, habitat destruction, indigenous livelihoods, IUCN Red List, Melanesia, native forest timber products, Pacific Islands, population size structure, structured questionnaires, sustainable harvesting, taxonomy, threatened species, timber harvesting, timber products, tropical forests, Vangunu Island, woodcarvings.


References

Amahowe, O. I., Azihou, A. F., Armand, N. K., Biaou, S. S. H., Séverin, B., Dieu-Donné, A., and Salomon, B. (2019). Constraints of seedling survival and recruitment under adult tree of a multi-use species Afzelia africana Sm and Pers in Sudanian region of Benin (West Africa). Agroforestry Systems 93, 1147–1156.
Constraints of seedling survival and recruitment under adult tree of a multi-use species Afzelia africana Sm and Pers in Sudanian region of Benin (West Africa).Crossref | GoogleScholarGoogle Scholar |

Arias, A. (2015). Understanding and managing compliance in the nature conservation context. Journal of Environmental Management 153, 134–143.
Understanding and managing compliance in the nature conservation context.Crossref | GoogleScholarGoogle Scholar | 25697900PubMed |

Austen, L. (1941). Native handicrafts in the Trobriand Islands. The Australian Journal of Anthropology 3, 193–198.
Native handicrafts in the Trobriand Islands.Crossref | GoogleScholarGoogle Scholar |

Austin, R. (2011). ‘Handicrafts of the Solomon Islands’, 2nd edn. (Secretariat of the Pacific Community: Noumea, New Caledonia)

Bridson, D., Forman, L., and Royal Botanic Gardens, K. (1992). ‘The herbarium handbook.’ (Royal Botanic Gardens Kew: Richmond, London, UK)

Busch, J., and Ferretti-Gallon, K. (2017). What drives deforestation and what stops it? A meta-analysis. Review of Environmental Economics and Policy 11, 3–23.
What drives deforestation and what stops it? A meta-analysis.Crossref | GoogleScholarGoogle Scholar |

Cleavitt, N. L., Battles, J. J., Johnson, C. E., and Fahey, T. J. (2017). Long-term decline of sugar maple following forest harvest, Hubbard Brook Experimental Forest, New Hampshire. Canadian Journal of Forest Research 48, 23–31.
Long-term decline of sugar maple following forest harvest, Hubbard Brook Experimental Forest, New Hampshire.Crossref | GoogleScholarGoogle Scholar |

Crowther, T. W., Glick, H. B., Covey, K. R., Bettigole, C., Maynard, D. S., Thomas, S. M., Smith, J. R., Hintler, G., Duguid, M. C., Amatulli, G., Tuanmu, M. N., Jetz, W., Salas, C., Stam, C., Piotto, D., Tavani, R., Green, S., Bruce, G., Williams, S. J., Wiser, S. K., Huber, M. O., Hengeveld, G. M., Nabuurs, G. J., Tikhonova, E., Borchardt, P., Li, C. F., Powrie, L. W., Fischer, M., Hemp, A., Homeier, J., Cho, P., Vibrans, A. C., Umunay, P. M., Piao, S. L., Rowe, C. W., Ashton, M. S., Crane, P. R., and Bradford, M. A. (2015). Mapping tree density at a global scale. Nature 525, 201–205.
Mapping tree density at a global scale.Crossref | GoogleScholarGoogle Scholar | 26331545PubMed |

Delvaux, C., Sinsin, B., and Van Damme, P. (2010). Impact of season, stem diameter and intensity of debarking on survival and bark re-growth pattern of medicinal tree species, Benin, West Africa. Biological Conservation 143, 2664–2671.
Impact of season, stem diameter and intensity of debarking on survival and bark re-growth pattern of medicinal tree species, Benin, West Africa.Crossref | GoogleScholarGoogle Scholar |

Dias, F. S., Miller, D. L., Marques, T. A., Marcelino, J., Caldeira, M. C., Orestes Cerdeira, J., and Bugalho, M. N. (2016). Conservation zones promote oak regeneration and shrub diversity in certified Mediterranean oak woodlands. Biological Conservation 195, 226–234.
Conservation zones promote oak regeneration and shrub diversity in certified Mediterranean oak woodlands.Crossref | GoogleScholarGoogle Scholar |

Duchok, R., Kent, K., Khumbongmayum, A. D., Paul, A., and Khan, M. (2005). Population structure and regeneration status of medicinal tree Illicium griffithii in relation to disturbance gradients in temperate broad-leaved forest of Arunachal Pradesh. Current Science 89, 673–676.

Dujesiefken, D., Rhaesa, A., Eckstein, D., and Stobbe, H. (1999). Tree wound reactions of differently treated boreholes. Journal of Arboriculture 25, 113.

Elmqvist, T., Wall, M., Berggren, A.-L., Blix, L., Fritioff, Å., and Rinman, U. (2001). Tropical forest reorganization after cyclone and fire disturbance in Samoa: remnant trees as biological legacies. Conservation Ecology 5, .
Tropical forest reorganization after cyclone and fire disturbance in Samoa: remnant trees as biological legacies.Crossref | GoogleScholarGoogle Scholar |

Gaoue, O. G., and Ticktin, T. (2007). Patterns of harvesting foliage and bark from the multipurpose tree Khaya senegalensis in Benin: variation across ecological regions and its impacts on population structure. Biological Conservation 137, 424–436.
Patterns of harvesting foliage and bark from the multipurpose tree Khaya senegalensis in Benin: variation across ecological regions and its impacts on population structure.Crossref | GoogleScholarGoogle Scholar |

Gutiérrez-Granados, G., Juárez, V., and Alcalá, R. E. (2011). Natural and human disturbances affect natural regeneration of Swietenia macrophylla: implications for rainforest management. Forest Ecology and Management 262, 161–169.
Natural and human disturbances affect natural regeneration of Swietenia macrophylla: implications for rainforest management.Crossref | GoogleScholarGoogle Scholar |

Hansen, M. C., Potapov, P. V., Moore, R., Hancher, M., Turubanova, S. A., Tyukavina, A., Thau, D., Stehman, S. V., Goetz, S. J., Loveland, T. R., Kommareddy, A., Egorov, A., Chini, L., Justice, C. O., and Townshend, J. R. G. (2013). High-resolution global maps of 21st-century forest cover change. Science 342, 850–853.
High-resolution global maps of 21st-century forest cover change.Crossref | GoogleScholarGoogle Scholar | 24233722PubMed |

Hillis, W. E., and Soenardi, P. (1994). Formation of ebony and streaked woods. IAWA Journal 15, 425–437.
Formation of ebony and streaked woods.Crossref | GoogleScholarGoogle Scholar |

Hviding, E. (1996). ‘Guardians of Marovo Lagoon. Practice, place and politics in maritime Melanesia.’ (University of Hawaii Press: Honolulu, Hawaii)

Hviding, E. (2003). Contested rainforests, NGOs, and projects of desire in Solomon Islands. International Social Science Journal 55, 539–553.
Contested rainforests, NGOs, and projects of desire in Solomon Islands.Crossref | GoogleScholarGoogle Scholar |

Hviding, E., and Bayliss-Smith, T. (2000). ‘Islands of rainforest: agroforestry, logging and eco-tourism in Solomon Islands.’ (Ashgate Publishing Ltd.: Aldershot, UK)

IUCN (2019). The IUCN Red List of Threatened Species. Version 1019-1.’ (International Union for Conservation of Nature and Natural Resources)

Jaffré, T., Morat, P., Veillon, J.-M., Rigault, F., and Dagostini, G. (2001). Composition et caractérisation de la flore indigène de Nouvelle-Calédonie. (IRD: Noumea)

Kabutaulaka, T. T. (2000). Rumble in the jungle: land, culture and (un)sustainable logging in Solomon Islands. In ‘Culture and sustainable development in the Pacific’. (Ed. A Hooper) pp. 88–97. (Asia Pacific Press: Canberra, Australia)

Katovai, E., Edwards, W., and Laurance, W. F. (2015). Dynamics of logging in Solomon Islands: the need for restoration and conservation alternatives. Tropical Conservation Science 8, 718–731.
Dynamics of logging in Solomon Islands: the need for restoration and conservation alternatives.Crossref | GoogleScholarGoogle Scholar |

Keppel, G. (2006). The lowland rain forest of the Solomon Islands: a bleak future. Melanesian Geo 2, 14–17.

Kupiainen, J. (2000). ‘Tradition, trade and woodcarving in Solomon Islands.’ (Finnish Anthropological Society: Helsinki, Finland)

Laurance, W. F., Albernaz, A. K. M., Schroth, G., Fearnside, P. M., Bergen, S., Venticinque, E. M., and Da Costa, C. (2002). Predictors of deforestation in the Brazilian Amazon. Journal of Biogeography 29, 737–748.
Predictors of deforestation in the Brazilian Amazon.Crossref | GoogleScholarGoogle Scholar |

Lavery, T. H., and Judge, H. (2017). A new species of giant rat (Muridae, Uromys) from Vangunu, Solomon Islands. Journal of Mammalogy 98, 1518–1530.
A new species of giant rat (Muridae, Uromys) from Vangunu, Solomon Islands.Crossref | GoogleScholarGoogle Scholar |

Lemmens, R. H. M. J., Soerianegara, I., and Wong, W. C. (1995). ‘Plant resources of South-east Asia. Timber trees: minor commercial timbers.’ (Backhuys Publishers: Leiden, Netherlands)

Lemmens, R. .M. J., Louppe, D., and Oteng-Amoako, A. A. (2012). ‘Plant resources of tropical Africa 7(2): Timbers 2.’ (PROTA Foundation/CTA: Wageningen, Netherlands)

Lim, F. K. S., Carrasco, L. R., McHardy, J., and Edwards, D. P. (2017). Perverse market outcomes from biodiversity conservation interventions. Conservation Letters 10, 506–516.
Perverse market outcomes from biodiversity conservation interventions.Crossref | GoogleScholarGoogle Scholar |

Lindenmayer, D. B., and Laurance, W. F. (2017). The ecology, distribution, conservation and management of large old trees. Biological Reviews 92, 1434–1458.
The ecology, distribution, conservation and management of large old trees.Crossref | GoogleScholarGoogle Scholar | 27383287PubMed |

Pertama, C. (2009). ‘Indonesian woodcraft: the art of wood.’ (Ministry of Trade of the Repuclic of Indonesia: Jakarta, Indonesia)

Schatz, G. E., Lowry, I. P. P., Onana, J.-M., Stévart, T., and Deblauwe, V. (2019). Diospyros crassiflora. In ‘The IUCN Red List of Threatened Species 2019. Version 1019-1.’ (International Union for Conservation of Nature and Natural Resources)

Shigo, A. L. (1986). ‘A new tree biology: facts, photos, and philosophies on trees and their problems and proper care.’ (Shigo and Trees Associates: Durham, New Hampshire, USA)

Slik, J. W. F., Paoli, G., McGuire, K., Amaral, I., Barroso, J., Bastian, M., Blanc, L., Bongers, F., Boundja, P., Clark, C., Collins, M., Dauby, G., Ding, Y., Doucet, J.-L., Eler, E., Ferreira, L., Forshed, O., Fredriksson, G., Gillet, J.-F., Harris, D., Leal, M., Laumonier, Y., Malhi, Y., Mansor, A., Martin, E., Miyamoto, K., Araujo-Murakami, A., Nagamasu, H., Nilus, R., Nurtjahya, E., Oliveira, Á., Onrizal, O., Parada-Gutierrez, A., Permana, A., Poorter, L., Poulsen, J., Ramirez-Angulo, H., Reitsma, J., Rovero, F., Rozak, A., Sheil, D., Silva-Espejo, J., Silveira, M., Spironelo, W., ter Steege, H., Stevart, T., Navarro-Aguilar, G. E., Sunderland, T., Suzuki, E., Tang, J., Theilade, I., van der Heijden, G., van Valkenburg, J., Van Do, T., Vilanova, E., Vos, V., Wich, S., Wöll, H., Yoneda, T., Zang, R., Zhang, M.-G., and Zweifel, N. (2013). Large trees drive forest aboveground biomass variation in moist lowland forests across the tropics. Global Ecology and Biogeography 22, 1261–1271.
Large trees drive forest aboveground biomass variation in moist lowland forests across the tropics.Crossref | GoogleScholarGoogle Scholar |

Smith, A. C. (1971). Studies of Pacific Island plants, XXIII. The genus Diospyros (Ebenaceae) in Fiji, Samoa, and Tonga. Journal of the Arnold Arboretum 52, 369–403.

Smith, A. C. (1981). ‘Flora Vitiensis nova: a new flora of Fiji (spermatophytes only). Vol. 2.’ (National Tropical Botanical Garden: Lawai, Kauai, Hawai’i)

Thaman, B., Icely, J. D., Fragoso, B. D. D., and Veitayaki, J. (2016). A comparison of rural community perceptions and involvement in conservation between the Fiji Islands and Southwestern Portugal. Ocean & Coastal Management 133, 43–52.
A comparison of rural community perceptions and involvement in conservation between the Fiji Islands and Southwestern Portugal.Crossref | GoogleScholarGoogle Scholar |

Thomas, S. C. (2011). Age-related changes in tree growth and functional biology: the role of reproduction. In ‘Size- and age-related changes in tree structure and function’. (Eds FC Meinzer, B Lachenbruch and TE Dawson) pp. 33–64. (Springer: Dordrecht, Netherlands)

Tsen, E. W. J., Sitzia, T., and Webber, B. L. (2016). To core, or not to core: the impact of coring on tree health and a best-practice framework for collecting dendrochronological information from living trees. Biological Reviews 91, 899–924.
To core, or not to core: the impact of coring on tree health and a best-practice framework for collecting dendrochronological information from living trees.Crossref | GoogleScholarGoogle Scholar |

Walker, F. S. (1962). ‘The forests of the British Solomon Islands Protectorate.’ (Government Printers: Honiara, Solomon Islands)

Wallnöfer, B. (2001). The biology and systematics of Ebenaceae: a review. Annalen des Naturhistorischen Museums in Wien 103B, 485–512.

Whistler, W. A. (2004) .‘Rainforest trees of Samoa. A guide to the common lowland and foothill forest trees of the Samoan Archipelago.’ (Isle Botanica: Honolulu, Hawaii)

Wilson, P. G., and Pitisopa, F. (2007). Xanthostemon melanoxylon (Myrtaceae) a new species from the Solomon Islands. Telopea 11, 399–403.
Xanthostemon melanoxylon (Myrtaceae) a new species from the Solomon Islands.Crossref | GoogleScholarGoogle Scholar |

Wright, H. (1904). The genus Diospyros in Ceylon: its morphology, anatomy, and taxonomy. Annals of the Royal Botanic Gardens, Peradeniya 2, 1–106.