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Dipterocarpaceae

October 15, 2023

Dipterocarpaceae is a family of 16 genera and about 695 known species[3] of mainly tropical lowland rainforest trees. Their distribution is pantropical, from northern South America to Africa, the Seychelles, India, Indochina, Indonesia, Malaysia and Philippines.[4][5] The greatest diversity of Dipterocarpaceae occurs in Borneo.[6]

Dipterocarpaceae
Temporal range: Maastrichtian - recent[1]
Dipterocarpus retusus
Scientific classification
Kingdom: Plantae
Clade: Tracheophytes
Clade: Angiosperms
Clade: Eudicots
Clade: Rosids
Order: Malvales
Family: Dipterocarpaceae
Blume (1825)[2]
Genera

The largest genera are Shorea (196 species), Hopea (104 species), Dipterocarpus (70 species), and Vatica (65 species).[7] Many are large forest-emergent species, typically reaching heights of 40–70 m, some even over 80 m (in the genera Dryobalanops,[7] Hopea[8] and Shorea),[8] with the tallest known living specimen (Shorea faguetiana) 93.0 m tall.[8]

The species of this family are of major importance in the timber trade. Some species are now endangered as a result of overcutting, extensive illegal logging, and habitat conversion. They provide valuable woods, aromatic essential oils, balsam, and resins, and are a source for plywood.

Taxonomy Edit

The family name comes from the type genus Dipterocarpus which is derived from Greek words δι di "two", πτερόν pteron "wing", and καρπός karpós "fruit"; the words combined refer to the two-winged fruit available from trees of that genus, other related genuses with winged fruits of more than two are included in the family as well.[9]

Classification Edit

The dipterocarp family is generally divided into two subfamilies:

Phylogeny of the Dipterocarpaceae[6]

A recent genetic study found that the Asian dipterocarps share a common ancestor with the Sarcolaenaceae, a tree family endemic to Madagascar.[13] This suggests that ancestor of the dipterocarps originated in the southern supercontinent of Gondwana, and that the common ancestor of the Asian dipterocarps and the Sarcolaenaceae was found in the India-Madagascar-Seychelles land mass millions of years ago, and were carried northward by India, which later collided with Asia and allowed the dipterocarps to spread across Southeast Asia and Malaysia. Although associated with Southeast Asia in contemporary times, recent studies using fossil pollen and molecular data suggest an African origin in the mid-cretaceous.[14] Prior to this research, the first dipterocarp pollen was found in Myanmar (which at that time was part of the Indian plate) and it dates from the upper Oligocene.[15] The sample appears to slowly increase in terms of diversity and abundance across the region into the mid-Miocene.[15] Chemical traces of dipterocarp resins have been found dating back to the Eocene of India. The oldest fossil of the family are from the latest Cretaceous (Maastrichtian) aged Intertrappean Beds of India, assignable to the extant genus Dipterocarpus.[16]

Subfamily Pakaraimoideae formerly placed here and native to the Guaianan highlands of South America, is now found to be more closely related the Cistaceae and is placed there in the APG IV (2016).[17]

Fossilized arthropods Edit

Some 52-million-year-old amber found in the Gujarat province, India, containing a large amount of fossilized arthropods, was identified as sap from the family Dipterocarpaceae.[18]

 
Dipterocarpaceae fossil displayed at Philippine National Museum

Ecology Edit

Dipterocarpaceae species can be either evergreen or deciduous.[19] Species occurring in Thailand grow from sea level to about 1300 m elevation. Environments in which the species of the family occur in Thailand include lowland dipterocarp forest 0–350 m, riparian fringe, limestone hills, and coastal hills.

The dipterocarps has dominated the Borneo lowland rain forests for millions of years.[20]

Conservation and climate change Edit

 
Primary lowland dipterocarp forest at Danum Valley, Sabah, Malaysia
 
Anisoptera costata at Taksin Maharat National Park, Thailand

As the dominant tree in Southeast Asia, the Dipterocarp family has seen extensive study relating to its conservation status. They are a keystone species of the native forests of this region, and are essential to their function and structure.

One study by Pang et al. examined the impacts of climate change and land cover on the distribution of this important tree family in the Philippines. They used species distribution models (SDMs) for 19 species that were projected onto both current and future climate scenarios, with current land cover incorporated as well. They found that the current land cover alone reduced the species distributions by 67%, and 37% in protected areas. On the other hand, climate change reduced species distributions by 16-27% in both protected and unprotected areas. There was also an upward shift in elevation of species distribution as a result of climate change, as habitats changed. They concluded that there was a need to improve protected area planning as refuges for critical species, with SDMs proving to be a useful tool for providing projections that can then be incorporated into this planning process.[21]

Another paper by Shishir et al. also investigated the potential effects of climate change on a threatened Dipterocarp tree in Purbachal, Bangladesh. Using a model that incorporated nine different environmental variables such as climate, geography, and soil conditions, they looked at two climate scenarios. They found that precipitation and soil nitrogen were the largest determinants of distribution, and that suitable habitat for this species will decline by 21-28% relative to the present land area as a result of climate change.[22]

See also Edit

References Edit

  1. ^ "Malvales". www.mobot.org. Retrieved 2023-07-20.
  2. ^ Angiosperm Phylogeny Group (2009). "An update of the Angiosperm Phylogeny Group classification for the orders and families of flowering plants: APG III". Botanical Journal of the Linnean Society. 161 (2): 105–121. doi:10.1111/j.1095-8339.2009.00996.x.
  3. ^ Christenhusz, M. J. M. & Byng, J. W. (2016). "The number of known plants species in the world and its annual increase". Phytotaxa. 261 (3): 201–217. doi:10.11646/phytotaxa.261.3.1.
  4. ^ Simon Gardner, Pindar Sidisunthorn and Lai Ee May, 2011. Heritage Trees of Penang. Penang: Areca Books. ISBN 978-967-57190-6-6
  5. ^ Pang Sean E H, De Alban Jose Don T, & Webb Edward L. (2021). Effects of climate change and land cover on the distributions of a critical botanical family in the Philippines. Scientific Reports, 11(1), 276–276. [./Https://doi.org/10.1038/s41598-020-79491-9
  6. ^ a b c Ashton, P.S. Dipterocarpaceae. Flora Malesiana, 1982 Series I, 92: 237-552
  7. ^ a b c Ashton, P.S. Dipterocarpaceae. In Tree Flora of Sabah and Sarawak, Volume 5, 2004. Soepadmo, E., Saw, L. G. and Chung, R. C. K. eds. Government of Malaysia, Kuala Lumpur, Malaysia. ISBN 983-2181-59-3
  8. ^ a b c "Borneo". Eastern Native Tree Society. Retrieved 2009-04-17.
  9. ^ Ghazoul, Jaboury (2016). Dipterocarp Biology, Ecology, and Conservation. Oxford, England, UK: Oxford University Press. p. 51. ISBN 978-0-19-108784-4.
  10. ^ Maury-Lechon, G. and Curtet, L. Biogeography and Evolutionary Systematics of Dipterocarpaceae. In A Review of Dipterocarps: Taxonomy, ecology and silviculture, 1998. Appanah, S. and Turnbull, J. M. eds. Center for International Forestry Research, Bogor, Indonesia. ISBN 979-8764-20-X
  11. ^ a b S Dayanandan; P S Ashton; S M Williams; R B Primack (1999). "Phylogeny of the tropical tree family Dipterocarpaceae based on nucleotide sequences of the chloroplast RBCL gene". American Journal of Botany. 86 (8): 1182–90. doi:10.2307/2656982. JSTOR 2656982. PMID 10449398.
  12. ^ S. Indrioko; O. Gailing; R. Finkeldey (2006). "Molecular phylogeny of Dipterocarpaceae in Indonesia based on chloroplast DNA". Plant Systematics and Evolution. 261 (1–4): 99–115. doi:10.1007/s00606-006-0435-8. S2CID 26395665.
  13. ^ M. Ducousso, G. Béna, C. Bourgeois, B. Buyck, G. Eyssartier, M. Vincelette, R. Rabevohitra, L. Randrihasipara, B. Dreyfus, Y. Prin. The last common ancestor of Sarcolaenaceae and Asian dipterocarp trees was ectomycorrhizal before the India-Madagascar separation, about 88 million years ago. Molecular Ecology 13: 231 January 2004.
  14. ^ Bansal, Mahi; Morley, Robert J.; Nagaraju, Shivaprakash K.; Dutta, Suryendu; Mishra, Ashish Kumar; Selveraj, Jeyakumar; Kumar, Sumit; Niyolia, Deepti; Harish, Sachin Medigeshi; Abdelrahim, Omer Babiker; Hasan, Shaa eldin; Ramesh, Bramasamdura Rangana; Dayanandan, Selvadurai; Morley, Harsanti P.; Ashton, Peter S. (2022-01-28). "Southeast Asian Dipterocarp origin and diversification driven by Africa-India floristic interchange". Science. 375 (6579): 455–460. doi:10.1126/science.abk2177. ISSN 0036-8075.
  15. ^ a b Morley, R.J. 2000. Origin and Evolution of Tropical Rain Forests. Wiley-Blackwell, NY.
  16. ^ Khan, Mahasin Ali; Spicer, Robert A.; Spicer, Teresa E. V.; Roy, Kaustav; Hazra, Manoshi; Hazra, Taposhi; Mahato, Sumana; Kumar, Sanchita; Bera, Subir (2020-11-03). "Dipterocarpus (Dipterocarpaceae) leaves from the K-Pg of India: a Cretaceous Gondwana presence of the Dipterocarpaceae". Plant Systematics and Evolution. 306 (6): 90. doi:10.1007/s00606-020-01718-z. ISSN 1615-6110. S2CID 228870254.
  17. ^ Angiosperm Phylogeny Group (2016), "An update of the Angiosperm Phylogeny Group classification for the orders and families of flowering plants: APG IV", Botanical Journal of the Linnean Society, 161 (2): 105–20, doi:10.1111/boj.12385
  18. ^ Sample, Ian. "Prehistoric creatures discovered in huge Indian amber haul" The Guardian, 25 October 2010. Retrieved: 26 October 2010.
  19. ^ Smitinand, Tem; Santisuk, Thatwatchai (1981). "Dipterocarpaceae of Thailand with Special Reference to Silvicultural Ecology". Malaysian Forester. 44: 377–85.
  20. ^ "A prehistoric forest grows in Brunei". ScienceDaily. 28 April 2022.
  21. ^ Pang, Sean E. H.; De Alban, Jose Don T.; Webb, Edward L. (2021-01-11). "Effects of climate change and land cover on the distributions of a critical tree family in the Philippines". Scientific Reports. 11 (1): 276. doi:10.1038/s41598-020-79491-9. ISSN 2045-2322. PMC 7801684. PMID 33432023.
  22. ^ Shishir, Sharmin; Mollah, Tanjinul Hoque; Tsuyuzaki, Shiro; Wada, Naoya (2020-12-01). "Predicting the probable impact of climate change on the distribution of threatened Shorea robusta forest in Purbachal, Bangladesh". Global Ecology and Conservation. 24: e01250. doi:10.1016/j.gecco.2020.e01250. ISSN 2351-9894.

External links Edit

 
Wikimedia Commons has media related to Dipterocarpaceae.
 
Wikispecies has information related to Dipterocarpaceae.
  • Center for International Forestry Research (1998). (PDF). ISBN 978-979-8764-20-2. Archived from the original (PDF) on 2011-07-25. Retrieved 2004-10-03.
  • Dipterocarpaceae Data Base [sic]

October 15, 2023
dipterocarpaceae, family, genera, about, known, species, mainly, tropical, lowland, rainforest, trees, their, distribution, pantropical, from, northern, south, america, africa, seychelles, india, indochina, indonesia, malaysia, philippines, greatest, diversity. Dipterocarpaceae is a family of 16 genera and about 695 known species 3 of mainly tropical lowland rainforest trees Their distribution is pantropical from northern South America to Africa the Seychelles India Indochina Indonesia Malaysia and Philippines 4 5 The greatest diversity of Dipterocarpaceae occurs in Borneo 6 DipterocarpaceaeTemporal range Maastrichtian recent 1 PreꞒ Ꞓ O S D C P T J K Pg NDipterocarpus retususScientific classificationKingdom PlantaeClade TracheophytesClade AngiospermsClade EudicotsClade RosidsOrder MalvalesFamily DipterocarpaceaeBlume 1825 2 GeneraAnisopteraAnthoshoreaCotylelobiumDipterocarpusDryobalanopsHopeaMarquesiaMonotesNeobalanocarpusParashoreaPseudomonotesShoreaStemonoporusUpunaVateriaVateriopsisVaticaThe largest genera are Shorea 196 species Hopea 104 species Dipterocarpus 70 species and Vatica 65 species 7 Many are large forest emergent species typically reaching heights of 40 70 m some even over 80 m in the genera Dryobalanops 7 Hopea 8 and Shorea 8 with the tallest known living specimen Shorea faguetiana 93 0 m tall 8 The species of this family are of major importance in the timber trade Some species are now endangered as a result of overcutting extensive illegal logging and habitat conversion They provide valuable woods aromatic essential oils balsam and resins and are a source for plywood Contents 1 Taxonomy 2 Classification 3 Fossilized arthropods 4 Ecology 5 Conservation and climate change 6 See also 7 References 8 External linksTaxonomy EditThe family name comes from the type genus Dipterocarpus which is derived from Greek words di di two pteron pteron wing and karpos karpos fruit the words combined refer to the two winged fruit available from trees of that genus other related genuses with winged fruits of more than two are included in the family as well 9 Classification EditThe dipterocarp family is generally divided into two subfamilies Phylogeny of the Dipterocarpaceae 6 Dipterocarpaceae Dipterocarpoideae Dipterocarpeae AnisopteraCotylelobiumDipterocarpusStemonoporusUpunaVateriaVateriopsisVaticaShoreae DryobalanopsHopeaNeobalanocarpusParashoreaShoreaMonotoideae MarquesiaMonotesPseudomonotesDipterocarpoideae the largest of the subfamilies it contains 13 genera and about 475 species Distribution includes the Seychelles Sri Lanka India Southeast Asia to New Guinea and a large distribution in Borneo where they form the dominant species in the lowland forests North Borneo Brunei Sabah and Sarawak is the richest area in the world for dipterocarp species 7 The Dipterocarpoideae can be divided morphologically into two groups 6 10 and the tribe names Shoreae and Dipterocarpeae are sometimes used but genetic evidence so far does not support this division 11 12 Valvate Dipterocarpeae group Anisoptera Cotylelobium Dipterocarpus Stemonoporus Upuna Vateria Vateriopsis Vatica The genera of this group have valvate sepals in fruit solitary vessels scattered resin canals and basic chromosome number x 11 Imbricate Shoreae group Balanocarpus Hopea Parashorea Shorea The genera of this group have imbricate sepals in fruit grouped vessels resin canals in tangential bands and basic chromosome number x 7 A recent molecular study suggests that the genus Hopea forms a clade with Shorea sections Anthoshorea and Doona and should be merged into Shorea 11 Monotoideae three genera 30 species Marquesia is native to Africa Monotes has 26 species distributed across Africa and Madagascar Pseudomonotes is native to the Colombian Amazon A recent genetic study found that the Asian dipterocarps share a common ancestor with the Sarcolaenaceae a tree family endemic to Madagascar 13 This suggests that ancestor of the dipterocarps originated in the southern supercontinent of Gondwana and that the common ancestor of the Asian dipterocarps and the Sarcolaenaceae was found in the India Madagascar Seychelles land mass millions of years ago and were carried northward by India which later collided with Asia and allowed the dipterocarps to spread across Southeast Asia and Malaysia Although associated with Southeast Asia in contemporary times recent studies using fossil pollen and molecular data suggest an African origin in the mid cretaceous 14 Prior to this research the first dipterocarp pollen was found in Myanmar which at that time was part of the Indian plate and it dates from the upper Oligocene 15 The sample appears to slowly increase in terms of diversity and abundance across the region into the mid Miocene 15 Chemical traces of dipterocarp resins have been found dating back to the Eocene of India The oldest fossil of the family are from the latest Cretaceous Maastrichtian aged Intertrappean Beds of India assignable to the extant genus Dipterocarpus 16 Subfamily Pakaraimoideae formerly placed here and native to the Guaianan highlands of South America is now found to be more closely related the Cistaceae and is placed there in the APG IV 2016 17 Fossilized arthropods EditSome 52 million year old amber found in the Gujarat province India containing a large amount of fossilized arthropods was identified as sap from the family Dipterocarpaceae 18 nbsp Dipterocarpaceae fossil displayed at Philippine National MuseumEcology EditDipterocarpaceae species can be either evergreen or deciduous 19 Species occurring in Thailand grow from sea level to about 1300 m elevation Environments in which the species of the family occur in Thailand include lowland dipterocarp forest 0 350 m riparian fringe limestone hills and coastal hills The dipterocarps has dominated the Borneo lowland rain forests for millions of years 20 Conservation and climate change Edit nbsp Primary lowland dipterocarp forest at Danum Valley Sabah Malaysia nbsp Anisoptera costata at Taksin Maharat National Park ThailandAs the dominant tree in Southeast Asia the Dipterocarp family has seen extensive study relating to its conservation status They are a keystone species of the native forests of this region and are essential to their function and structure One study by Pang et al examined the impacts of climate change and land cover on the distribution of this important tree family in the Philippines They used species distribution models SDMs for 19 species that were projected onto both current and future climate scenarios with current land cover incorporated as well They found that the current land cover alone reduced the species distributions by 67 and 37 in protected areas On the other hand climate change reduced species distributions by 16 27 in both protected and unprotected areas There was also an upward shift in elevation of species distribution as a result of climate change as habitats changed They concluded that there was a need to improve protected area planning as refuges for critical species with SDMs proving to be a useful tool for providing projections that can then be incorporated into this planning process 21 Another paper by Shishir et al also investigated the potential effects of climate change on a threatened Dipterocarp tree in Purbachal Bangladesh Using a model that incorporated nine different environmental variables such as climate geography and soil conditions they looked at two climate scenarios They found that precipitation and soil nitrogen were the largest determinants of distribution and that suitable habitat for this species will decline by 21 28 relative to the present land area as a result of climate change 22 See also EditDipterocarp timber classificationReferences Edit Malvales www mobot org Retrieved 2023 07 20 Angiosperm Phylogeny Group 2009 An update of the Angiosperm Phylogeny Group classification for the orders and families of flowering plants APG III Botanical Journal of the Linnean Society 161 2 105 121 doi 10 1111 j 1095 8339 2009 00996 x Christenhusz M J M amp Byng J W 2016 The number of known plants species in the world and its annual increase Phytotaxa 261 3 201 217 doi 10 11646 phytotaxa 261 3 1 Simon Gardner Pindar Sidisunthorn and Lai Ee May 2011 Heritage Trees of Penang Penang Areca Books ISBN 978 967 57190 6 6 Pang Sean E H De Alban Jose Don T amp Webb Edward L 2021 Effects of climate change and land cover on the distributions of a critical botanical family in the Philippines Scientific Reports 11 1 276 276 Https doi org 10 1038 s41598 020 79491 9 a b c Ashton P S Dipterocarpaceae Flora Malesiana 1982 Series I 92 237 552 a b c Ashton P S Dipterocarpaceae In Tree Flora of Sabah and Sarawak Volume 5 2004 Soepadmo E Saw L G and Chung R C K eds Government of Malaysia Kuala Lumpur Malaysia ISBN 983 2181 59 3 a b c Borneo Eastern Native Tree Society Retrieved 2009 04 17 Ghazoul Jaboury 2016 Dipterocarp Biology Ecology and Conservation Oxford England UK Oxford University Press p 51 ISBN 978 0 19 108784 4 Maury Lechon G and Curtet L Biogeography and Evolutionary Systematics of Dipterocarpaceae In A Review of Dipterocarps Taxonomy ecology and silviculture 1998 Appanah S and Turnbull J M eds Center for International Forestry Research Bogor Indonesia ISBN 979 8764 20 X a b S Dayanandan P S Ashton S M Williams R B Primack 1999 Phylogeny of the tropical tree family Dipterocarpaceae based on nucleotide sequences of the chloroplast RBCL gene American Journal of Botany 86 8 1182 90 doi 10 2307 2656982 JSTOR 2656982 PMID 10449398 S Indrioko O Gailing R Finkeldey 2006 Molecular phylogeny of Dipterocarpaceae in Indonesia based on chloroplast DNA Plant Systematics and Evolution 261 1 4 99 115 doi 10 1007 s00606 006 0435 8 S2CID 26395665 M Ducousso G Bena C Bourgeois B Buyck G Eyssartier M Vincelette R Rabevohitra L Randrihasipara B Dreyfus Y Prin The last common ancestor of Sarcolaenaceae and Asian dipterocarp trees was ectomycorrhizal before the India Madagascar separation about 88 million years ago Molecular Ecology 13 231 January 2004 Bansal Mahi Morley Robert J Nagaraju Shivaprakash K Dutta Suryendu Mishra Ashish Kumar Selveraj Jeyakumar Kumar Sumit Niyolia Deepti Harish Sachin Medigeshi Abdelrahim Omer Babiker Hasan Shaa eldin Ramesh Bramasamdura Rangana Dayanandan Selvadurai Morley Harsanti P Ashton Peter S 2022 01 28 Southeast Asian Dipterocarp origin and diversification driven by Africa India floristic interchange Science 375 6579 455 460 doi 10 1126 science abk2177 ISSN 0036 8075 a b Morley R J 2000 Origin and Evolution of Tropical Rain Forests Wiley Blackwell NY Khan Mahasin Ali Spicer Robert A Spicer Teresa E V Roy Kaustav Hazra Manoshi Hazra Taposhi Mahato Sumana Kumar Sanchita Bera Subir 2020 11 03 Dipterocarpus Dipterocarpaceae leaves from the K Pg of India a Cretaceous Gondwana presence of the Dipterocarpaceae Plant Systematics and Evolution 306 6 90 doi 10 1007 s00606 020 01718 z ISSN 1615 6110 S2CID 228870254 Angiosperm Phylogeny Group 2016 An update of the Angiosperm Phylogeny Group classification for the orders and families of flowering plants APG IV Botanical Journal of the Linnean Society 161 2 105 20 doi 10 1111 boj 12385 Sample Ian Prehistoric creatures discovered in huge Indian amber haul The Guardian 25 October 2010 Retrieved 26 October 2010 Smitinand Tem Santisuk Thatwatchai 1981 Dipterocarpaceae of Thailand with Special Reference to Silvicultural Ecology Malaysian Forester 44 377 85 A prehistoric forest grows in Brunei ScienceDaily 28 April 2022 Pang Sean E H De Alban Jose Don T Webb Edward L 2021 01 11 Effects of climate change and land cover on the distributions of a critical tree family in the Philippines Scientific Reports 11 1 276 doi 10 1038 s41598 020 79491 9 ISSN 2045 2322 PMC 7801684 PMID 33432023 Shishir Sharmin Mollah Tanjinul Hoque Tsuyuzaki Shiro Wada Naoya 2020 12 01 Predicting the probable impact of climate change on the distribution of threatened Shorea robusta forest in Purbachal Bangladesh Global Ecology and Conservation 24 e01250 doi 10 1016 j gecco 2020 e01250 ISSN 2351 9894 External links Edit nbsp Wikimedia Commons has media related to Dipterocarpaceae nbsp Wikispecies has information related to Dipterocarpaceae Center for International Forestry Research 1998 A Review of Dipterocarps Taxonomy ecology and silviculture PDF version PDF ISBN 978 979 8764 20 2 Archived from the original PDF on 2011 07 25 Retrieved 2004 10 03 Dipterocarpaceae Data Base sic Retrieved from https en wikipedia org w index php title Dipterocarpaceae amp oldid 1176675204, wikipedia, wiki, book, books, library,

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