Changes in bioaccumulation and translocation patterns between root and leafs of Avicennia schaueriana as adaptive response to different levels of metals in mangrove system

Souza, Iara da C.; Rocha, Lívia D.; Morozesk, Mariana; Bonomo, Marina M.; Arrivabene, Hiulana P.; Duarte, Ian D.; Furlan, Larissa M.; Monferrán, Magdalena V.; Mazik, Krysia; Elliott, Michael; Matsumoto, Silvia T.; Milanez, Camilla R.D.; Wunderlin, Daniel A.; Fernandes, Marisa N.

doi:10.1016/j.marpolbul.2015.02.032

Changes in bioaccumulation and translocation patterns between root and leafs of Avicennia schaueriana as adaptive response to different levels of metals in mangrove system

Souza, Iara da C.; Rocha, Lívia D.; Morozesk, Mariana; Bonomo, Marina M.; Arrivabene, Hiulana P.; Duarte, Ian D.; Furlan, Larissa M.; Monferrán, Magdalena V.; Mazik, Krysia; Elliott, Michael; Matsumoto, Silvia T.; Milanez, Camilla R.D.; Wunderlin, Daniel A.; Fernandes, Marisa N.

Authors

Iara da C. Souza

Lívia D. Rocha

Mariana Morozesk

Marina M. Bonomo

Hiulana P. Arrivabene

Ian D. Duarte

Larissa M. Furlan

Magdalena V. Monferrán

Dr Krysia Mazik K.Mazik@hull.ac.uk
Senior Lecturer. Marine Biology

Professor Mike Elliott Mike.Elliott@hull.ac.uk
Emeritus Professor of Estuarine and Coastal Sciences/ Research Professor, Institute of Estuarine and Coastal Studies

Silvia T. Matsumoto

Camilla R.D. Milanez

Daniel A. Wunderlin

Marisa N. Fernandes

Abstract

© 2015 Elsevier Ltd. Espírito Santo estuaries (Brazil) are impacted by industrial activities, resulting in contamination of water and sediments. This raise questions on biological uptake, storage and consequences of metal contamination to mangrove plants. The goal of this work was evaluating accumulation and translocation of metals from sediment to roots and leaves of Avicennia schaueriana, growing in areas with different degrees of contamination, correlating bioaccumulation with changes in its root anatomy. Highest bioconcentration factors (BCFs) were observed in plants growing in less polluted areas. Conversely, highest translocation factors were found in plants from highest polluted area, evidencing an adaptive response of A. schaueriana to less favourable conditions. Namely, the absorption of metals by roots is diminished when facing highest levels of metals in the environment; alternatively, plants seem to enhance the translocation to diminish the concentration of toxic metals in roots. Root also responded to highly polluted scenarios with modifications of its anatomy.

Citation

Souza, I. D. C., Rocha, L. D., Morozesk, M., Bonomo, M. M., Arrivabene, H. P., Duarte, I. D., Furlan, L. M., Monferrán, M. V., Mazik, K., Elliott, M., Matsumoto, S. T., Milanez, C. R., Wunderlin, D. A., & Fernandes, M. N. (2015). Changes in bioaccumulation and translocation patterns between root and leafs of Avicennia schaueriana as adaptive response to different levels of metals in mangrove system. Marine pollution bulletin, 94(1-2), 176-184. https://doi.org/10.1016/j.marpolbul.2015.02.032

Journal Article Type	Article
Online Publication Date	Mar 26, 2015
Publication Date	May 15, 2015
Deposit Date	Apr 1, 2022
Journal	Marine Pollution Bulletin
Print ISSN	0025-326X
Publisher	Elsevier
Peer Reviewed	Peer Reviewed
Volume	94
Issue	1-2
Pages	176-184
DOI	https://doi.org/10.1016/j.marpolbul.2015.02.032
Keywords	Aerenchyma; Cortex thickness; Black mangrove; Neotropical estuary
Public URL	https://hull-repository.worktribe.com/output/532255