RADIOCARBON INVESTIGATION OF TWO LARGE AFRICAN BAOBABS FROM KIZIMKAZI, ZANZIBAR, TANZANIA

Authors

  • Adrian PATRUT Babeş-Bolyai University, Faculty of Chemistry and Chemical Engineering, 11 Arany Janos, RO-400028, Cluj-Napoca, Romania; Babeş-Bolyai University, Raluca Ripan Institute for Research in Chemistry, 30 Fantanele, RO-400294 Cluj-Napoca, Romania. *Corresponding author: apatrut@gmail.com https://orcid.org/0000-0002-9862-6735
  • Roxana T. PATRUT Babeş-Bolyai University, Faculty of Chemistry and Chemical Engineering, 11 Arany Janos, RO-400028, Cluj-Napoca, Romania. https://orcid.org/0000-0002-8691-2160
  • Laszlo RAKOSY Babeş-Bolyai University, Faculty of Biology and Geology, 44 Republicii, RO-400015 Cluj-Napoca, Romania. https://orcid.org/0000-0002-7793-6996
  • Ileana-Andreea RATIU Babeş-Bolyai University, Faculty of Chemistry and Chemical Engineering, 11 Arany Janos, RO-400028, Cluj-Napoca, Romania; Babeş-Bolyai University, Raluca Ripan Institute for Research in Chemistry, 30 Fantanele, RO-400294 Cluj-Napoca, Romania. https://orcid.org/0000-0003-2615-684X
  • Jenö BODIS Babeş-Bolyai University, Faculty of Chemistry and Chemical Engineering, 11 Arany Janos, RO-400028, Cluj-Napoca, Romania; Babeş-Bolyai University, Raluca Ripan Institute for Research in Chemistry, 30 Fantanele, RO-400294 Cluj-Napoca, Romania. https://orcid.org/0000-0001-7080-124X
  • Nassor Mahmoud NASSOR Private investigator, Kizimkazi Dimbani, Zanzibar, Tanzania.
  • Karl F. VON REDEN NOSAMS Facility, Dept. of Geology & Geophysics, Woods Hole Oceanographic Institution, Woods Hole, MA 02543, U.S.A. https://orcid.org/0000-0001-6413-9018

DOI:

https://doi.org/10.24193/subbchem.2022.2.09

Keywords:

AMS radiocarbon dating, Adansonia digitata, dendrochronology, age determination, multiple stems, false cavity.

Abstract

The article reports the AMS (accelerator mass spectrometry) radiocarbon dating results of Kizimkazi Big tree and Kizimkazi II baobab, two large African baobabs from Zanzibar, Tanzania. Unfortunately, both baobabs toppled and died in 2018 and 2020, during violent storms. The investigation of the two baobabs evinced that the first of them, which was also the biggest tree of Tanzania, consisted of 5 stems, out of which 2 were false ones, and had a closed ring-shaped structure. The second baobab was composed of 4 fused stems and had a cluster structure. Several wood samples were collected from the two baobabs. Seven segments were extracted from the samples and dated by radiocarbon. The oldest segment from Kizimkazi Big tree had a radiocarbon date of 312 ± 18 BP, corresponding to a calibrated age of 380 ± 10 calendar years. According to dating results, the Kizimkazi Big tree died at the age of 400 ± 25 years. The oldest segment from Kizimkazi II baobab had a radiocarbon date of 137 ± 17 BP, corresponding to a calibrated age of 190 ± 10 calendar years. This value indicates that the Kizimkazi II baobab was 250 ± 25 years old when it died.

References

G.E. Wickens, Kew Bull., 1982, 37(2), 172-209.

D.A. Baum, Ann. Mo. Bot. Gard.,1995, 82, 440-471.

G.E. Wickens, P. Lowe, "The Baobabs: Pachycauls of Africa, Madagascar and Australia", Springer, Dordrecht, 2008, pp. 232-234, 256-257, 295-296.

J.D. Pettigrew, L.K. Bell, A. Bhagwandin, E. Grinan, N. Jillani, J. Meyer, E. Wabuyele, C.E. Vickers, Taxon, 2013, 61, 1240-1250.

A. Petignat, L. Jasper, “Baobabs of the world: The upside down trees of Madagascar, Africa and Australia”, Struik Nature, Cape Town, 2015, pp. 16-86.

G.V. Cron, N. Karimi, K.L. Glennon, C.A. Udeh, E.T.F. Witkowski, S.M. Venter, A.E. Assobadjo, D.H. Mayne, D.A. Baum, Taxon, 2016, 65, 1037-1049.

A. Patrut, K.F. von Reden, D.A. Lowy, A.H. Alberts, J.W. Pohlman, R. Wittmann, D. Gerlach, L. Xu, C.S. Mitchell, Tree Physiol., 2007, 27, 1569-1574.

A. Patrut, D.H. Mayne, K.F. von Reden, D.A. Lowy, R. Van Pelt, A.P. McNichol, M.L. Roberts, D. Margineanu, Radiocarbon, 2010, 52(2-3), 717-726.

A. Patrut, K.F. von Reden, R. Van Pelt, D.H. Mayne, D.A. Lowy, D. Margineanu, Ann. Forest Sci., 2011, 68, 93-103.

A. Patrut, K.F. von Reden, D.H. Mayne, D.A. Lowy, R.T. Patrut, Nucl. Instrum. Methods Phys. Res. Sect. B, 2013, 294, 622-626.

A. Patrut, S. Woodborne, K.F. von Reden, G. Hall, M. Hofmeyr, D.A. Lowy, R.T. Patrut, PLOS One, 2015, 10(1): e0117193.

A. Patrut, S. Woodborne, K.F. von Reden, G. Hall, R.T. Patrut, L. Rakosy, J-M. Leong Pock Tsy, D.A. Lowy, D. Margineanu, Radiocarbon, 2017, 59(2), 435-448.

A. Patrut, L. Rakosy, R.T. Patrut, I.A. Ratiu, E. Forizs, D.A. Lowy, D. Margineanu, K.F. von Reden, Studia UBB Chemia, 2016, LXI, 4, 7-20.

A. Patrut, S. Woodborne, R.T. Patrut, L. Rakosy, D.A. Lowy, G. Hall, K.F. von Reden, Nat. Plants, 2018, 4(7), 423-426.

A. Patrut, R.T. Patrut, L. Rakosy, D.A. Lowy, D. Margineanu, K.F. von Reden, Studia UBB Chemia, 2019, LXIV, 2 (II), 411-419. doi:10.24193/subbchem.2019.2.35.

A. Patrut, S. Woodborne, R.T. Patrut, G. Hall, L. Rakosy, C. Winterbach, K.F. von Reden, Forests, 2019, 10, 983-993.

A. Patrut, A. Garg, S. Woodborne, R.T. Patrut, L. Rakosy, I.A. Ratiu, PLOS One, 2020, 15(1): e0227352.

A. Patrut, K.F. von Reden, P. Danthu, J-M. Leong Pock-Tsy, R.T. Patrut, D.A. Lowy, PLOS One, 2015, 10(3): e0121170. doi:10.1371/journal.pone.0121170.

A. Patrut, K.F. von Reden, P. Danthu, J-M. Leong Pock-Tsy, L. Rakosy, R.T. Patrut, D.A. Lowy, D. Margineanu, Nuclear Instruments and Methods in Physics Research Section B, 2015, 361, 591-598. doi:10.1016/j.nimb.2015.04.044.

A. Patrut, R.T. Patrut, P. Danthu, J-M. Leong Pock-Tsy, L. Rakosy, D.A. Lowy, K.F. von Reden, PLOS One, 2016, 11(1): e146977. doi:10.1371/journal.pone. 0146977.

R.T. Patrut, A. Patrut, J-M. Leon Pock Tsy, S. Woodborne, L. Rakosy, P. Danthu, I-A. Ratiu, J. Bodis, K.F. von Reden, Studia UBB Chemia, 2019, LXIV, 4, 131-139.

A. Patrut, R.T. Patrut, J-M Leong Pock-Tsy, S. Woodborne, L. Rakosy, I-A. Ratiu, J. Bodis, P. Danthu, Studia UBB Chemia, 2020, LXV, 4, 151-158.

A. Harley, I. Sim, J. Jafferji, “Zanzibar: An essential guide”, Gallery Publications, Zanzibar, 2010, pp. 25-39.

A. Patrut, S. Garnaud, O. Ka, R.T. Patrut, T. Diagne, D.A. Lowy, E. Forizs, J. Bodis, K.F. von Reden, Studia UBB Chemia, 2017, LXII, 1, 111-120.

N.J. Loader, I. Robertson, A.C. Barker, V.R. Switsur, J.S. Waterhouse, Chem. Geol.,1997, 136(3), 313–317.

Z. Sofer, Anal. Chem., 1980, 52(8), 1389-1391.

J.S. Vogel, J.R. Southon, D.E. Nelson, T.A. Brown, Nucl. Instrum. Methods Phys. Res. Sect. B, 1984, 5, 289-293.

C. Bronk Ramsey, Radiocarbon, 2009, 51, 337-360.

A.G. Hogg, T.J. Heaton, Q. Hua, J.G. Palmer, C.S.M. Turney, J. Southon, A. Bayliss, P.G. Blackwell, G. Boswijk, C.B. Ramsey, C. Pearson, F. Petchey, P.J. Reimer, R.W. Reimer, L. Wacher, Radiocarbon, 2020, 62(4), 759-778.

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Published

2022-06-30

How to Cite

PATRUT, A., PATRUT, R. T., RAKOSY, L., RATIU, I.-A., BODIS, J., NASSOR, N. M., & VON REDEN, K. F. (2022). RADIOCARBON INVESTIGATION OF TWO LARGE AFRICAN BAOBABS FROM KIZIMKAZI, ZANZIBAR, TANZANIA. Studia Universitatis Babeș-Bolyai Chemia, 67(2), 143–153. https://doi.org/10.24193/subbchem.2022.2.09

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