Arsenic & Rice Andrew A. Meharg (cid:129) Fang-Jie Zhao Arsenic & Rice Andrew A. Meharg Fang-Jie Zhao University of Aberdeen Rothamsted Research Aberdeen Harpenden United Kingdom United Kingdom and Nanjing Agricultural University Nanjing China ISBN 978-94-007-2946-9 e-ISBN 978-94-007-2947-6 DOI 10.1007/978-94-007-2947-6 Springer Dordrecht Heidelberg London New York Library of Congress Control Number: 2012930919 © Springer Science+Business Media B.V. 2012 No part of this work may be reproduced, stored in a retrieval system, or transmitted in any form or by any means, electronic, mechanical, photocopying, microfi lming, recording or otherwise, without written permission from the Publisher, with the exception of any material supplied specifi cally for the purpose of being entered and executed on a computer system, for exclusive use by the purchaser of the work. Printed on acid-free paper Springer is part of Springer Science+Business Media (www.springer.com) Acknowledgements The work synthesised in this book is indebted to many people who have actively been involved in the research presented. Key amongst these are colleagues at Aberdeen (Joneil Abedin, Eureka Adomako, Anne-Marie Carey, Claire Deacon, Joerg Feldmann, Helle Hansen, Daniel Lou-Hing, Adrien Mestrot, Meher Niger, Gareth Norton, Adam Price, Andrea Raab, Mahmud Sumon and Paul Williams) and Rothamsted (Sarah Dunham, Asaduzzaman Khan, Renying Li, Wenju Liu, Charlotte Lomax, Steve McGrath, Jackie Stroud, Yuhong Su, Zhongchang Wu, Xiaoyan Xu and Wenling Ye) with whom we have worked with over the years, as well as inter- national colleagues based in Bangladesh (Shahid Hossain, Rafi ql Islam, Mazibur Rahman, ARM Solaiman), Australia (Enzo Lombi), China (Ying Lu, Ping Wu, Yongguan Zhu), USA (Tracy Punshon, Kirk Schekel), Spain (Angel Carbonell- Barrachina, Toni Signes-Pastor, Antia Villada), Japan (Jian Feng Ma), India (Tapash Dasgupta) and UK (Hugh Brammer, Claudia Cassini, Bill Davison, Parvez Haris, Katie Moore, Dave Polya and Hao Zhang) who have also been central to this work. We are grateful to the following people who have kindly provided images, graphs or data that are used in the book: Katja Bogdan, Ann-Marie Carey, John Duxbury, Scott Fendorf, Wenju Liu, Enzo Lombi, Jian Feng Ma, Adrien Mestrot, Katie Moore, Lenny Winkel and Maozhong Zheng. We thank Steve McGrath for com- menting on the last four chapters of the book. Thanks are due to our families Caroline, Annie, Christine and Kenny (AAM) and Xiaoyun and Tina (FJZ) for their support over the years of writing this book. v Contents 1 Introduction ............................................................................................... 1 1.1 Arsenic Exposure from Rice .............................................................. 1 1.2 Historical Context .............................................................................. 3 1.3 Biogeochemistry of Paddy Soils ........................................................ 3 1.4 Plant Physiology ................................................................................ 5 1.5 Summary ............................................................................................ 6 References ................................................................................................... 6 2 Arsenic in Rice Grain ............................................................................... 11 2.1 Introduction ........................................................................................ 11 2.2 Quantifi cation of Arsenic in Rice Grain ............................................ 11 2.2.1 Total Arsenic Analysis ........................................................... 12 2.2.2 Arsenic Speciation by Chromatographic Separation ............. 13 2.2.3 Certifi ed Reference Materials (CRMs) .................................. 16 2.3 Arsenic Speciation in Rice Grain ....................................................... 16 2.4 Total Grain Arsenic ............................................................................ 21 2.5 Rice Products ..................................................................................... 25 References ................................................................................................... 27 3 Risk from Arsenic in Rice Grain ............................................................. 31 3.1 Rice Consumption .............................................................................. 31 3.2 Studies on the Total Intake of Inorganic Arsenic ............................... 35 3.3 Considering Rice as an Arsenic Source in Epidemiological Studies ................................................................................................ 38 3.4 The Effects of Cooking Rice on Its Arsenic Content ......................... 39 3.5 Human Bioavailability of Arsenic in Rice ......................................... 40 3.6 Risk Assessment from Arsenic in Rice .............................................. 41 3.7 Food Arsenic Standards ..................................................................... 43 3.8 Limiting Arsenic Exposure to Rice .................................................... 46 References ................................................................................................... 48 vii viii Contents 4 Sources and Losses of Arsenic to Paddy Fields ...................................... 51 4.1 Introduction ........................................................................................ 51 4.2 Sources of Arsenic to Paddy Ecosystems .......................................... 51 4.2.1 Natural Sources ...................................................................... 52 4.2.2 Non-point Source Industrial/Urban Pollution ........................ 55 4.2.3 Fertilizers and Manures Contaminated with Arsenic ............. 55 4.2.4 Point Source Industrial Pollution ........................................... 57 4.2.5 Arsenical Pesticides ............................................................... 58 4.2.6 Contamination of Irrigation Water ......................................... 59 4.3 Paddy Field Arsenic Cycling in a Wider Hydrological Context ....................................................... 65 References ................................................................................................... 66 5 Biogeochemistry of Arsenic in Paddy Environments ............................ 71 5.1 Overview of the Biogeochemistry of Paddy Soil ............................... 71 5.2 Arsenic Transformations in Paddy Soil ............................................. 75 5.2.1 Arsenic Reduction and Oxidation .......................................... 75 5.2.2 Arsenic Adsorption and Desorption ....................................... 82 5.2.3 Arsenic Biomethylation, Volatilisation and Demethylation ........................................... 87 5.2.4 Predicting Available Arsenic in Paddy Soil ........................... 92 5.3 Impact of Groundwater Irrigation on Arsenic Dynamics in Paddy Fields ............................................... 94 References ................................................................................................... 96 6 The Physiology of Arsenic in Rice ........................................................... 103 6.1 Introduction ........................................................................................ 103 6.2 Mechanisms of Arsenic Uptake by Roots .......................................... 103 6.2.1 Uptake of Arsenate ................................................................. 104 6.2.2 Uptake of Arsenite ................................................................. 107 6.2.3 Uptake of Methylated Arsenic Species .................................. 110 6.3 Transformation of Arsenic Species in Plant ...................................... 113 6.3.1 Arsenate Reduction ................................................................ 113 6.3.2 Arsenite Complexation ........................................................... 114 6.3.3 Arsenic Methylation ............................................................... 115 6.4 Arsenic Sequestration in Plant ........................................................... 116 6.4.1 Iron Plaque ............................................................................. 116 6.4.2 Sequestration of Arsenic in the Vacuoles ............................... 119 6.5 Long-Distance Transport and Unloading of Arsenic in Rice Grain .................................................................... 121 6.5.1 Xylem Transport .................................................................... 121 6.5.2 Phloem Transport ................................................................... 122 6.5.3 Transport of Arsenic into Rice Grain ..................................... 122 6.6 Arsenic Toxicity and “Straighthead Disease” .................................... 125 6.6.1 Toxicity of Inorganic Arsenic ................................................ 125 6.6.2 “Straighthead Disease”........................................................... 126 References ................................................................................................... 132 Contents ix 7 Strategies for Producing Low Arsenic Rice ............................................ 139 7.1 Introduction ........................................................................................ 139 7.2 Paddy Field Water Management ........................................................ 139 7.2.1 Aerobic Rice........................................................................... 141 7.2.2 Alternate Wetting and Drying (AWD) ................................... 141 7.2.3 Raised Bed Cultivation ........................................................... 142 7.2.4 Effects of Water Management on the Accumulation of Other Elements ................................ 143 7.3 Cultivar Selection and Breeding Low Arsenic Rice .......................... 144 7.3.1 Cultivar Difference in Arsenic Accumulation ........................ 144 7.3.2 Quantitative Trait Loci for Arsenic Accumulation ................ 147 7.4 Fertilization and Soil Amendments ................................................... 147 References ................................................................................................... 149 8 Arsenic in Other Crops............................................................................. 153 8.1 Introduction ........................................................................................ 153 8.2 Wheat ................................................................................................. 153 8.3 Maize .................................................................................................. 160 8.4 Potato ................................................................................................. 161 8.5 Pulses ................................................................................................. 162 8.6 Vegetables .......................................................................................... 162 8.7 Fruits .................................................................................................. 164 References ................................................................................................... 164 Index ................................................................................................................. 167
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