Open Access Open Access  Restricted Access Subscription Access

Radiocarbon Dating and Status of the Oldest Extant Ceylon Iron Wood (Manilkara hexandra) in the Riverine Ramsar Site of India


Affiliations
1 Botanical Survey of India, Central Regional Centre, Allahabad 211 002, India
2 Babeş-Bolyai University, Faculty of Biology and Geology, RO-400015, Cluj-Napoca, Romania
3 Babeş-Bolyai University, Faculty of Chemistry and Chemical Engineering, RO-400028, Cluj-Napoca, Romania
4 iThemba LABS, Private Bag 11, WITS 2050, Johannesburg, South Africa
 

During recent field surveys, a new Ceylon iron wood (Manilkara hexandra) population was discovered in the Upper Ganga Ramsar Site, Uttar Pradesh (UP), India. The largest specimen located at Van Khandeshwar partially collapsed in 2012, which led to a canopy impairment. The rupture enabled direct extraction of samples close to the pith of the main stem. The radiocarbon date of the oldest sample was 361 ± 23 BP, which corresponds to a calibrated age of 525 ± 25 cal yr. The results indicate the Ceylon iron wood of Narora, UP is the oldest dated extant M. hexandra with a calculated age of 550 ± 50 yr. Several protection measures are presented and urgent action is required to prevent the total collapse of this ancient tree.

Keywords

Manilkara hexandra, Radiocarbon Dating, Riverine Site, Tree Conservation.
User
Notifications
Font Size

  • Dubard, P. M. M., Manilkara hexandra (Roxb.) Dubard. Ann. Mus. Colon. Marseille, 1915, 3, 9.
  • Roxburgh, M. D. W., Plants of the Coast of Coromandel, Vol. 1, W. Bulmer and Co., Shakespeare Printing Office, London, 1795, p. 15; https://www.biodiversitylibrary.org/item/9711#page/1/mode/ 1up
  • Shah, M. B., Goswami, S. S. and Santani, D. D., Effect of Manilkara hexandra (Roxb.) Dubard against experimentally-induced gastric ulcers. Phytother. Res., 2004, 18, 814–818.
  • Malik, S. K., Choudhary, R., Kumar, S., Dhariwal, O. P., Deswal, R. P. S. and Chaudhury, R., Socio-economic and horticultural potential of khirni [Manilkara hexandra (Roxb.) Dubard]: a promising underutilized fruit species of India. Genet. Resour. Crop. Evol., 2012, 59, 1255–1265.
  • Mishra, N. and Pareek, A., Traditional uses, phytochemisty and pharmacology of Mimusops hexandra Roxb. Adv. Pharm. Ethnomed., 2014, 2, 32–35.
  • Pingili, D., Awasthi, A. and Amminbavi, D., Assessment of in vitro antiarthritic activity of Manilkara hexandra (Roxb.) Dubard leaf extract. Ann. Phytomed., 2016, 5, 152–155.
  • Anjali, Garg, V., Dhiman, A., Dutt, R. and Ranga, S., The genus Manilkara: an update. Pharma Innov., 2018, 7, 316–318.
  • Keerthika, A., Shukla, A. K. and Khandelwal, V., Popularization of Manilkara hexandra (khirni) – an endangered underutilized fruit tree for conservation and utilization. Curr. Sci., 2015, 109, 1010–1011.
  • IUCN, The IUCN Red List of Threatened Species. Version 2019-3, 2019; http://www.iucnredlist.org (accessed on 10 December 2019).
  • Gunarathne, U. K. and Perera, A., Is Manilkara hexandra (Roxb.) Dubard, a threatened species in Sri Lanka? In Proceedings of the 29th Annual Sessions of the Institute of Biology, Colombo, Sri Lanka, 2009.
  • Shetty, B. V. and Singh, V., Flora of Rajasthan, Series 2, Botanical Survey of India, Dehradun, 1991, p. 460.
  • Mudgal, V., Khanna, K. K. and Hajra, P. K., Flora of Madhya Pradesh, Series 2, Botanical Survey of India, Calcutta, 1997, p. 14.
  • Krishen, P., Trees of Delhi: A Field Guide, Dorling Kindersley Pvt Ltd, India, 2006, p. 139.
  • Nayar, T. S., Beegam, A. P. and Sibi, M., The Western Ghats, Vol. 1, Jawaharlal Nehru Tropical Botanic Garden and Research Institute, Thiruvananthapuram, 2014, p. 835.
  • Pareek, O. P., Sharma, S. and Arora, R. K., Underutilized edible fruits and nuts: an inventory of genetic resources in their regions of diversity. International Plant Genetic Resources Institute, New Delhi, 1998, p. 73.
  • Suresh, H. S., Do trees tell us about the past? Resonance, 2012, 17, 33–43.
  • Upadhyay, K. K., Shah, S. K., Roy, A., Mehrotra, N. and Tripathi, S. K., Dendrochronological potential of Tectona grandis, Pinus kesiya and Quercus serrata from Mizoram, northeast India. Indian J. Ecol., 2019, 46, 722–728.
  • Shah, S. K. and Mehrotra, N., Tree-ring studies of Toona ciliata from subtropical wet hill forests of Kalimpong, eastern Himalaya. Dendrochronologia, 2017, 46, 46–55.
  • Pandey, U., Shah, S. K. and Mehrotra, N., Tree-ring studies from Kashmir Valley: present status and future perspective. Geophytology, 2016, 46, 207–220.
  • Patrut, A. et al., The growth stop phenomenon of baobabs (Adansonia spp.) indentified by radiocarbon dating. Radiocarbon, 2017, 59, 435–448.
  • Bormann, F. H. and Berlyn, G., Age and growth rate of tropical tees: new directions for research. School of Forestry and Environmental Studies Bulletin, Yale University, USA, 1981.
  • Pumijumnong, N., Dendrochronology in Southeast Asia. Trees, 2013, 27, 343–358.
  • Tarelkin, Y., Delvaux, C., De Ridder, M., El Berkani, T., De Cannière, C. and Beeckman, H., Growth-ring distinctness and boundary anatomy in tropical trees. IAWA J., 2016, 37, 275–294; doi:10.1163/22941932-20160134.
  • Baguinon, N. T., Borgaonkar, H., Gunatilleke, N., Duangsathaporn, K., Buckley, B. M., Wright, W. E. and Maid, M., Collaborative Studies in Tropical Asian Dendrochronology: Addressing Challenges in Climatology and Forest Ecology. Final report for APN project: ARCP2008-03CMY-Baguinon, Asia-Pacific Network for Global Change Research, 2009.
  • Worbes, M., One hundred years of tree-ring research in the tropics – a brief history and an outlook to future challenges. Dendrochronologia, 2002, 20, 217–231.
  • Fichtler, E., Clark, D. A. and Worbes, M., Age and long-term growth of trees in an old-growth tropical rain forest, based on analyses of tree rings and 14C. Biotropica, 2003, 35, 306–317.
  • Patrut, A., von Reden, K. F., Danthu, P., Leong Pock-Tsy, J.-M., Patrut, R. T. and Lowy, D. A., Searching for the oldest baobab of Madagascar: radiocarbon investigation of large Adansonia rubrostipa trees. PLoS ONE, 2015, 10, e0121170.
  • Patrut, A., Woodborne, S., Patrut, R. T., Rakosy, L., Lowy, D. A., Hall, G. and von Reden, K. F., The demise of the largest and oldest African baobabs. Nature Plants, 2018, 4, 423–436.
  • Patrut, A., Garg, A., Woodborne, S., Patrut, R. T., Rakosy, L., Ratiu, I. A. and Lowy, D. A., Radiocarbon dating of two old African baobabs from India. PLoS ONE, 2020, 15, e0227352.
  • Poussart, P. M., Myneni, S. C. B. and Lanzirotti, A., Tropical dendrochemistry: a novel approach to estimate age and growth from ringless trees. Geoophys. Res. Lett., 2006, 33, L17711.
  • Patrut, A., Patrut, R. T., Rakosy, L., Bodis, J., Lowy, D., Forizs, E. and von Reden, K. F., African baobabs with double closed ringshaped structures and two separate false cavities: radiocarbon investigation of the baobab of Golconda Fort. Stud. Univ. BabesBolyai Chemia, 2016, LXI, 21–30.
  • Lindenmayer, D. B., Laurence, W. F. and Franklin, J. F., Global decline in large old trees. Science, 2012, 338, 1305–1306.
  • Stagoll, K., Lindenmayer, D. B., Knight, E., Fischer, J. and Manning, A. D., Large trees are keystone structures in urban parks. Conserv. Lett., 2012, 5, 115–122.
  • Patrut, A. et al., Fire history of a giant African baobab evinced by radiocarbon dating. Radiocarbon, 2010, 52, 717–726.
  • Loader, N. J., Robertson, I., Barker, A. C., Switsur, V. R. and Waterhouse, J. S., An improved technique for the batch processing of small wholewood samples to α -cellulose. Chem. Geol., 1997, 136, 313–317.
  • Sofer, Z., Preparation of carbon dioxide for stable carbon isotope analysis of petroleum fractions. Anal. Chem., 1980, 52, 1389– 1391.
  • Vogel, J. S., Southon, J. R., Nelson, D. E. and Brown, T. A., Performance of catalytically condensed carbon for use in accelerator mass-spectrometry. Nucl. Instrm. Methods B., 1984, 5, 289–293.
  • Mbele, V. L., Mullins, S. M., Winkler, S. R. and Woodborne, S., Acceptance tests for AMS radiocarbon measurements at iThemba LABS, Gauteng, South Africa. Phys. Procedia, 2017, 90, 10–16.
  • Bronk Ramsey, C., Bayesian analysis of radiocarbon dates. Radiocarbon, 2009, 51, 337–360.
  • Reimer, P. J. et al., J., IntCal13 and Marine13 radiocarbon age calibration curves, 0–50,000 years cal BP. Radiocarbon, 2013, 55, 1869–1887.
  • Hua, Q., Barbetti, M. and Rakowski, A. J., Atmospheric radiocarbon for the period 1950–2010. Radiocarbon, 2013, 55, 2059– 2072.
  • Attar, S. K., Thakur, N. S., Patel, H. F., Singh, N. D., Makawana, A. I., Leua, H. N. and Parmar, S. G., Underutilized fruit Manilkara hexandra (khirni). Rashtriya Krishi, 2016, 11, 17–18.

Abstract Views: 312

PDF Views: 127




  • Radiocarbon Dating and Status of the Oldest Extant Ceylon Iron Wood (Manilkara hexandra) in the Riverine Ramsar Site of India

Abstract Views: 312  |  PDF Views: 127

Authors

Arti Garg
Botanical Survey of India, Central Regional Centre, Allahabad 211 002, India
Roxana T. Patrut
Babeş-Bolyai University, Faculty of Biology and Geology, RO-400015, Cluj-Napoca, Romania
Adrian Patrut
Babeş-Bolyai University, Faculty of Chemistry and Chemical Engineering, RO-400028, Cluj-Napoca, Romania
Stephan Woodborne
iThemba LABS, Private Bag 11, WITS 2050, Johannesburg, South Africa
Laszlo Rakosy
Babeş-Bolyai University, Faculty of Biology and Geology, RO-400015, Cluj-Napoca, Romania

Abstract


During recent field surveys, a new Ceylon iron wood (Manilkara hexandra) population was discovered in the Upper Ganga Ramsar Site, Uttar Pradesh (UP), India. The largest specimen located at Van Khandeshwar partially collapsed in 2012, which led to a canopy impairment. The rupture enabled direct extraction of samples close to the pith of the main stem. The radiocarbon date of the oldest sample was 361 ± 23 BP, which corresponds to a calibrated age of 525 ± 25 cal yr. The results indicate the Ceylon iron wood of Narora, UP is the oldest dated extant M. hexandra with a calculated age of 550 ± 50 yr. Several protection measures are presented and urgent action is required to prevent the total collapse of this ancient tree.

Keywords


Manilkara hexandra, Radiocarbon Dating, Riverine Site, Tree Conservation.

References





DOI: https://doi.org/10.18520/cs%2Fv120%2Fi3%2F562-566