Saad Sulieman · Lam-Son Phan Tran Editors Legume Nitrogen Fixation in a Changing Environment Achievements and Challenges Legume Nitrogen Fixation in a Changing Environment Saad Sulieman (cid:129) Lam-Son Phan Tran Editors Legume Nitrogen Fixation in a Changing Environment Achievements and Challenges Editors Saad Sulieman Lam-Son Phan Tran Faculty of Agriculture Signaling Pathway Research Unit Department of Agronomy RIKEN Center for Sustainable University of Khartoum Resource Science Khartoum North , Sudan Yokohama , Kanagawa , Japan ISBN 978-3-319-06211-2 ISBN 978-3-319-06212-9 (eBook) DOI 10.1007/978-3-319-06212-9 Library of Congress Control Number: 2015937353 Springer Cham Heidelberg New York Dordrecht London © Springer International Publishing Switzerland 2015 T his work is subject to copyright. All rights are reserved by the Publisher, whether the whole or part of the material is concerned, specifi cally the rights of translation, reprinting, reuse of illustrations, recitation, broadcasting, reproduction on microfi lms or in any other physical way, and transmission or information storage and retrieval, electronic adaptation, computer software, or by similar or dissimilar methodology now known or hereafter developed. T he use of general descriptive names, registered names, trademarks, service marks, etc. in this publication does not imply, even in the absence of a specifi c statement, that such names are exempt from the relevant protective laws and regulations and therefore free for general use. T he publisher, the authors and the editors are safe to assume that the advice and information in this book are believed to be true and accurate at the date of publication. Neither the publisher nor the authors or the editors give a warranty, express or implied, with respect to the material contained herein or for any errors or omissions that may have been made. Printed on acid-free paper S pringer International Publishing AG Switzerland is part of Springer Science+Business Media (www.springer.com) Pref ace C limate change is a topic that increasingly occupies the attention of the world. The study of plant responses to various environmental stresses has been a central feature of plant biologists’ efforts to understand how plants function in a changing environment. In recent years, much progress has been made in understanding how environmental stresses affect legumes performance. As a consequence, we consid- ered that it is timely to re-examine the physiological, biochemical, and molecular responses of plants to a variety of stresses with a view of identifying the major principles. In this approach, the present volume aims to identify the existing gaps in scientifi c understanding and fi ll the niche. In particular, we were interested to exam- ine whether we are now in a position to provide plant breeders with certain useful strategies for development of elite adapted cultivars through conventional breeding and sophisticated techniques of genetic engineering. The “L egume Nitrogen Fixation in a Changing Environment — Achievements and Challenges ” volume brings together the state-of-the-art overview of legume growth and production as infl uenced by environmentally imposed stresses. As editors, we favored a collection of specialized chapters rather than a textbook style. The present volume was edited with contribution from distinguished experts who have worked diligently in compiling information and knowledge in their respective areas of research. This volume consisting of fi ve chapters opens with an Introduction and Overview that sets the scene, outlines essential background, and considers the impact of different stresses as limiting factors for legume production in the context of a changing global environment. The chapters assembled here provide an up-to- date account of our knowledge about the responses of N -fi xing leguminous symbioses to 2 drought (Chap. 2 ) , salinity (Chap. 3 ) , heat stress (Chap. 4 ) , elevated carbon dioxide concentrations (Chap. 5 ), and soil acidity (Chap. 6 ) as well as discuss the potential approaches for the improvement of N fi xation under stresses. Categorically, these 2 stresses represent the major environmental factors that are directly related to climate variability and account for major limitations to legume production worldwide. The authors have provided latest insights in their research areas. Numerous fi gures and tables have been supplied to facilitate the comprehension of the presented materials. v vi Preface Thus, “L egume Nitrogen Fixation in a Changing Environment — Achievements and Challenges ” is a new volume with focus on how symbiotic legumes adapt to abiotic stress and how molecular and biotechnological approaches could allow us to mitigate the climate variability on the productivity of legume crops, thereby improv- ing food supply in a sustainable agricultural system. We hope that this volume will serve as a major source of information and knowledge to senior undergraduates and research students seeking an introduction to the area of plant stress physiology and biological nitrogen fi xation. We also trust that it will be of interest to a wide range of plant scientists, including agronomists, physiologists, biotechnologists, molecu- lar biologists, and plant breeders, who have concern about biological nitrogen fi xa- tion of legume crops under stressful environments. As editors of this volume, we feel pleasure to extend our heartfelt thanks to all the invited authors for their efforts and cooperation in bringing out this volume in time. We are very grateful to the support provided by the Japan Society for the Promotion of Science (JSPS) and RIKEN Center for Sustainable Resource Science, Japan, for our academic research. We are indebted to Mr. Kenneth Teng and Mr. Joseph Quatela, the editorial staff of Springer, New York, who have been of invalu- able help in the production of this endeavor. Finally, it is a profound pleasure to thank Springer New York for publishing this volume. We hope that the fi nal result will be worth the effort and will make a sound contribution to this fascinating research area. Khartoum, Sudan Saad Sulieman Yokohama, Japan Lam-Son Phan Tran Contents Introduction ..................................................................................................... 1 Saad Sulieman and Lam-Son Phan Tran Physiological Responses of N-Fixing Legumes 2 to Water Limitation ........................................................................................ 5 Esther M. González , Estíbaliz Larrainzar , Daniel Marino , Stefanie Wienkoop , Erena Gil-Quintana , and César Arrese-Igor Salinity: Physiological Impacts on Legume Nitrogen Fixation ................... 35 Carmen Lluch Plá and Libertad Cobos-Porras How Does High Temperature Affect Legume Nodule Symbiotic Activity? ......................................................................................... 67 Iker Aranjuelo , Joseba Aldasoro , César Arrese-Igor , Gorka Erice , and Álvaro Sanz-Sáez Does Elevated CO Provide Real Benefits 2 for N-Fixing Leguminous Symbioses? ......................................................... 89 2 Saad Sulieman , Nguyen Phuong Thao , and Lam-Son Phan Tran Physiological Implications of Legume Nodules Associated with Soil Acidity .............................................................................................. 113 Brett J. Ferguson and Peter M. Gresshoff About the Editors ............................................................................................ 127 Index ................................................................................................................. 129 vii Introduction Saad Sulieman and Lam-Son Phan Tran T here is a strong awareness that the world population will grow more rapidly during the few coming years. The world population of 6.91 billion in 2010 will increase to 8.43 billion in 2030 and 9.55 billion in 2050, which will be probably stabilized at around 10–11 billion by the end of the century ( h ttp://en.wikipedia.org/wiki/World_ population ) . This awareness must be translated into a parallel increase in the agricul- tural production to secure adequate food for the additional 3–4 billion inhabitants. If such an increase in production should be realized with current agricultural man- agement that would similarly require the double use of fossil fuel energy for fertilizer production. This would cause economic hardship and surpassing damage to the envi- ronment. The intensive application of chemical nitrogen (N) fertilizers has led to an unprecedented perturbation of the N cycle, illustrated by the growing accumulation of nitrates in soils and waters and of nitrogen oxides in the atmosphere. Sustainable agriculture has mandated that alternatives to chemical N fertilizers must be urgently sought. Biological dinitrogen (N ) fi xation, a microbiological process that converts 2 atmospheric N into a plant-usable form, offers this alternative. Among these renew- 2 able sources, N -fi xing legumes offer an economically attractive and ecologically 2 sound means of reducing external inputs and improving internal resources. Legumes (L eguminosae or F abaceae ) represent the second major crop of agricul- tural importance worldwide and cover about 14 % of total land under cultivation. In many regions of the world, legumes contribute a number of function and e cosystem services with great impact to the sustainability of various agricultural systems. S. Sulieman (*) Department of Agronomy, Faculty of Agriculture , University of Khartoum , 13314 Shambat , Khartoum North , Sudan e-mail: [email protected] L.-S. P. Tran (*) Signaling Pathway Research Unit , RIKEN Center for Sustainable Resource Science (CSRS) , 1-7-22, Suehiro-cho, Tsurumi , Yokohama 230-0045 , Japan e-mail: [email protected] © Springer International Publishing Switzerland 2015 1 S. Sulieman, L.-S.P. Tran (eds.), Legume Nitrogen Fixation in a Changing Environment, DOI 10.1007/978-3-319-06212-9_1 2 S. Sulieman and L.-S.P. Tran These plants provide important sources of oils, fi ber, micronutrients, minerals, and vegetable proteins suitable for livestock feed and human consumption while supplying N to agro-ecosystems via their unique ability to fi x atmospheric N in 2 symbiosis with the soil rhizobia. Legumes therefore possess great potential for use in soil stabilization, reforestation, and agricultural practices. The symbiotic rela- tionship between legumes and their rhizobial partners takes place in the root nod- ules and provides access to atmospheric N . Nevertheless, the contribution of the 2 symbiotic process to legume production is recognized to be highly sensitive to adverse environmental conditions, such as edaphic and environmental constraints. Therefore, understanding how symbiotic N fi xation responds to the surrounding 2 environmental conditions is particularly important for both agriculture and preser- vation of the ecosystems. As leguminous plants are inextricably linked to the surrounding environment, their mere inclusion in various cropping systems does not always ensure the attain- ment of the estimated optimal levels of symbiotic N fi xation in the fi eld. Day by 2 day, the cycle of climate on earth is changing and according to the predictions of the Intergovernmental Panel on Climate Change (IPCC), most climatic scenarios are expected to be affected by climate change. Expectations of impending climates specify immense alterations in temperature, rainfall pattern, humidity, and soil moisture regimes. Changes in climate not only infl uence the entire cropping system but also affect the performance of cultivars of different fi eld crops, including legumes. Thus, climate change has become a major concern in agricultural develop- ment. Several environmental factors, such as drought, elevated temperature, salin- ity, soil acidity, and rising CO , are known to dramatically affect the symbiotic 2 process and thus play a part in determining the actual amount of N fi xed by a given legume in the fi eld. Accordingly, environmental stress factors adversely affect N - fi xing legume growth and pose a growing threat to sustainable agriculture. This 2 has become a hot issue due to concerns about the effects of climate change on plant resources, biodiversity, and global food security. Understanding the responses of N 2 fi xation and legume performance to global environmental change is crucial for improving legume production and maintaining agricultural sustainability in the con- text of global change. In this thoughtful and provocative new volume, we provide critical information on how current and projected future changes in the environment will affect legume growth and their symbiotic N -fi xing capabilities. 2 To cope with various abiotic constraints, legumes have evolved a number of strat- egies at both morphological and physiological levels. With the advances in physio- logical methodology and molecular biotechnology, diverse arrays of biochemical, physiological, and molecular mechanisms underlying those adaptive strategies have been well studied in a broad range of plants, both model and crop species. Some particular strategies have been observed for the adaptation of nodulated leguminous plants to drought, elevated temperature, salinity, soil acidity, and rising CO . The 2 application of omic technologies, i.e., transcriptomics, proteomics, metabolomics, and comparative genomics, reveals complex internal reactions and acclimations of plant organs to unfavorable conditions. Signifi cant research efforts in the genomics of various stresses have shown that many genes regulated in a coordinated fashion