注册 登录  
 加关注
   显示下一条  |  关闭
温馨提示!由于新浪微博认证机制调整,您的新浪微博帐号绑定已过期,请重新绑定!立即重新绑定新浪微博》  |  关闭

wangyufeng的博客

祝愿BB 健康开心快乐每一天

 
 
 

日志

 
 

Recent Plant stress Science Reviews II (updated Sept. 26, 2011)  

2011-09-29 01:16:59|  分类: 植物耐铝机理 |  标签: |举报 |字号 订阅

  下载LOFTER 我的照片书  |

Salinity stress                                                Back to top< xmlnamespace prefix ="o" ns ="urn:schemas-microsoft-com:office:office" />

9268

M. Ashraf, H.R. Athar, P.J.C. Harris T.R. Kwon

2008

Some Prospective Strategies for Improving Crop Salt Tolerance

Adv.Agron.97:45-110

9332

Rana Munns and Mark Tester

2008

Mechanisms of Salinity Tolerance

Ann.Rev.Plant Biol.59:651-681

9408

Timothy J. Flowers and Timothy D. Colmer

2008

Salinity tolerance in halophytes

New Phytol. Online: 28 Jun 2008

9412

Sergey Shabala, Tracey A. Cuin

2008

Potassium transport and plant salt tolerance

Physiol.Plant.133:651 – 669

9487

Caitlin S. Byrt and Rana Munns

2008

Living with salinity

New Phytol.179:903 – 905

10057

Ismail Türkan, and Tijen Demiral

2009

Recent developments in understanding salinity tolerance

Env.Exp.Bot.67:2-9

10153

Heikham Evelin, Rupam Kapoor and Bhoopander Giri

2009

Arbuscular mycorrhizal fungi in alleviation of salt stress: a review

Ann.Bot.104:1263-1280

10200

Tomoaki Horie , Felix Hauser and Julian I. Schroeder

2009

HKT transporter-mediated salinity resistance mechanisms in Arabidopsis and monocot crop plants

Trends Plant Sci.14:660-668

10271

Antonio Cimato, Silvana Castelli, Massimiliano Tattini ,  and Maria Laura Traversi

2010

An ecophysiological analysis of salinity tolerance in olive

Environ.Expl.Bot.68:214-221

10292

S. Chen  & A. Polle

2010

Salinity tolerance of Populus

Plant Biol.12:317 – 333

10353

Felix Hauser & Tomoaki Horie

2010

A conserved primary salt tolerance mechanism mediated by HKT transporters: a mechanism for sodium exclusion and maintenance of high K+/Na+ ratio in leaves during salinity stress

Plant Cell Environ.32:552 – 565

10354

Natasha L. Teakle & Stephen D. Tyerman

2010

Mechanisms of Cl- transport contributing to salt tolerance

Plant Cell Environ.32:566 – 589

10426

M. Ashraf  N.A. Akram R.N. Arteca M.R. Foolad

2010

The Physiological, Biochemical and Molecular Roles of Brassinosteroids and Salicylic Acid in Plant Processes and Salt Tolerance

Crit,Rev.Plant Sci.162 – 190

10526

Francisco Pérez-Alfocea, Alfonso Albacete, Michel E. Ghanem  and Ian C. Dodd

2010

Hormonal regulation of source–sink relations to maintain crop productivity under salinity: a case study of root-to-shoot signalling in tomato

Funct.Plant Biol.37:592–603

10527

Timothy J. Flowers, Hanaa K. Galal and Lindell Bromham

2010

Evolution of halophytes: multiple origins of salt tolerance in land plants

Funct.Plant Biol.37:604–612

10665

Cheng-Jiang Ruan; Jaime A. Teixeir da Silvab; Susan Mopper; Pei Qin; Stanley Lutts

2010

Halophyte Improvement for a Salinized World

Crit.Rev.Plant Sci.29:329 – 359

10670

Rahat Nazar, Noushina Iqbal, Asim Masood, Shabina Syeed and Nafees A. Khan

2010

Understanding the significance of sulfur in improving salinity tolerance in plants

Environ.Expl.Bot.70:78-87

10728

Giuseppe Colla, Youssef Rouphael, Cherubino Leonardi and Zhilong Bie

2010

Role of grafting in vegetable crops grown under saline conditions

Sci.Hort.127:147-155

10806

Maheshi Dassanayake, Dong-ha Oh, Hyewon Hong, Hans J. Bohnert and John M. Cheeseman

2011

Transcription strength and halophytic lifestyle

Trends Plant Sci.16:1-3

10989

Carlos S Galvan-Ampudia and Christa Testerink

2011

Salt stress signals shape the plant root

Curr.Opin.Plant Biol.14:296-302

11197

Negr?o, S; Courtois, B.; Ahmadi, N.; Abreu, I.; Saibo, N.; Oliveira, M.M.

2011

Recent Updates on Salinity Stress in Rice: From Physiological to Molecular Responses

Crit.Rev.Plant Sci.30:329-377(49)

Mineral deficiency stress                              Back to top

9411

Zed Rengel, Paul M. Damon

2008

Crops and genotypes differ in efficiency of potassium uptake and use

Physiol.Plant.133:624 – 636

9449

Elsbeth L. Walker and Erin L. Connolly

2008

Time to pump iron: iron-deficiency-signaling mechanisms of higher plants

Curr.Opin.Plant Biol.11:530-53

9450

Peter Doerner

2008

Phosphate starvation signaling: a threesome controls systemic Pi homeostasis

Curr.Opin.Plant Biol.11:536-540

9810

Jeeyon Jeong and Erin L. Connolly

2009

Iron uptake mechanisms in plants: Functions of the FRO family of ferric reductases

Plant Sci.176:709-714

9722

Alan E. Richardson, Peter J. Hocking , Richard J. Simpson and Timothy S. George

2009

Plant mechanisms to optimize access to soil phosphorus

Crop Past.Sci.60:124–143

10033

Trevor Garnett, Vanessa Conn Brent N. Kaiser

2009

Root based approaches to improving nitrogen use efficiency in plants

Plant Cell Environ.32:1272 – 1283

10109

M.J. Foulkes , M.J. Hawkesford, P.B. Barraclough, M.J. Holdsworth, S. Kerr, S. Kightley and P.R. Shewry

2009

Identifying traits to improve the nitrogen economy of wheat: Recent advances and future prospects

Field Crops Res114:329-342

10193

Alain Gojon , Philippe Nacry,  and Jean-Claude Davidian

2009

Root uptake regulation: a central process for NPS homeostasis in plants

Curr.Opin.Plant Biol.12:328-338

10372

Shao Jiang Zheng

2010

Iron homeostasis and iron acquisition in plants: maintenance, functions and consequences

Ann.Bot.105:799-800

10386

Lara Ramaekers, Roseline Remans, Idupulapati M. Rao, Matthew W. Blair and Jozef Vanderleyden

2010

Strategies for improving phosphorus acquisition efficiency of crop plants

Field Crops.Res.117:169-176

10487

Xiurong Wang, Xiaolong Yan and Hong Liao

2010

Genetic improvement for phosphorus efficiency in soybean: a radical approach

Ann.Bot.106:215-222

10604

Xiurong Wang, Jianbo Shen and Hong Liao

2010

Acquisition or utilization, which is more critical for enhancing phosphorus efficiency in modern crops?

Plant Sci.179:302-306

10839

Surya Kant,Yong-Mei Bi and. Steven J. Rothstein

2011

Understanding plant response to nitrogen limitation for the improvement of crop nitrogen use efficiency

J.Exp.Bot.62:1499-1509.

10981

Tzyy-Jen Chiou and Shu-I Lin

2011

Signaling Network in Sensing Phosphate Availability in Plants

Ann.Rev.Plant Biol.62:185-206

10990

Steffen Abel

2011

Phosphate sensing in root development

Curr.Opin.Plant Biol.14:303-309

11112

William C. Plaxton and Hue T. Tran

2011

Metabolic Adaptations of Phosphate-Starved Plants

Plant Physiol.156:1006-1015.

11113

Jianbo Shen, Lixing Yuan, Junling Zhang, Haigang Li, Zhaohai Bai, Xinping Chen, Weifeng Zhang and Fusuo Zhang

2011

Phosphorus Dynamics: From Soil to Plant

Plant Physiol.156:997-1005

11114

Lingyun Cheng, Bruna Bucciarelli, Jianbo Shen, Deborah Allan and Carroll P. Vance

2011

Update on White Lupin Cluster Root Acclimation to Phosphorus Deficiency Update on Lupin Cluster Roots

Plant Physiol.156:1025-1032

11115

Jonathan P. Lynch

2011

Root Phenes for Enhanced Soil Exploration and Phosphorus Acquisition: Tools for Future Crops

Plant Physiol.156:1041-1049

11116

Carlos Calderón-Vázquez, Ruairidh J.H. Sawers and Luis Herrera-Estrella

2011

Phosphate Deprivation in Maize: Genetics and Genomics

Plant Physiol.156:1067-1077.

11189

Benjamin Péret, Mathilde Clément, Laurent Nussaume and Thierry Desnos

2011

Root developmental adaptation to phosphate starvation: better safe than sorry

Trends Plant Sci.16:442-450

Mineral/metal toxicity stress (and phytoremediation)    Back to top

9336

Sui Kwong Yaua, John Ryan

2008

Boron Toxicity Tolerance in Crops: A Viable Alternative to Soil Amelioration

Crop Sci.48:854-865

9437

N.K. Fageria and V.C. Baligar

2008

Ameliorating Soil Acidity of Tropical Oxisols by Liming For Sustainable Crop Production

Adv.Agron.99:345-399 

9768

F.J. Zhao, J.F. Ma, A.A. Meharg  and S.P. McGrath

2009

Arsenic uptake and metabolism in plants

New Phytol.181:777 – 794

9938

Nathalie Verbruggen, Christian Hermans, and Henk Schat

2009

Mechanisms to cope with arsenic or cadmium excess in plants

Curr.Opin.Plant Biol.12:364-372

10182

Rob Reid 

2010

Can we really increase yields by making crop plants tolerant to boron toxicity?

Plant Sci.178:9-11

10210

Elena Maestr, Marta Marmiroli, Giovanna Visioli and Nelson Marmiroli

2010

Metal tolerance and hyperaccumulation: Costs and trade-offs between traits and environment

Environ.Expl.Bot.68:1-13

10234

Sally E. Smith , Helle M. Christophersen, Suzanne Pope and F. Andrew Smith

2010

Arsenic uptake and toxicity in plants: integrating mycorrhizal influences

Plant and Soil 327:1-21

10324

Peter R. Ryan and Emmanuel Delhaize

2010

The convergent evolution of aluminium resistance in plants exploits a convenient currency

Funct.Plant Biol.37:275–284   

10484

Walter J. Horst, Yunxi Wang and Dejene Etich

2010

The role of the root apoplast in aluminium-induced inhibition of root elongation and in aluminium resistance of plants: a review

Ann.Bot.106:185-197

10485

Jurandir V. Magalhaes

2010

How a microbial drug transporter became essential for crop cultivation on acid soils: aluminium tolerance conferred by the multidrug and toxic compound extrusion (MATE) family

Ann.Bot.106:199-203

10489

Ute Kr?mer

2010

Metal Hyperaccumulation in Plants

Ann.Rev.Plant Biol.61: 517

10682

P.R. Ryan, S.D. Tyerman. T. Sasaki T. Furuichi . Y. Yamamoto W H. Zhang E. Delhaize

2010

The identification of aluminium-resistance genes provides opportunities for enhancing crop production on acid soils

J.Exp.Bot.62:9-20

10683

Alexander Lux Michal Martinka Marek Vaculík Philip J. White

2010

Root responses to cadmium in the rhizosphere: a review

J.Exp.Bot.62:21-37

10729

Dimitrios Savvas, , Giuseppe Collb, Youssef Rouphaec and Dietmar Schwarz

2010

Amelioration of heavy metal and nutrient stress in fruit vegetables by grafting

Sci.Hort.127:156-161

10799

Nicoletta Rascio,  and Flavia Navari-Izzo

2011

Heavy metal hyperaccumulating plants: How and why do they do it? And what makes them so interesting?

Plant Sci.180:169-181

10845

Hassinen, V.H., Tervahauta, A.I., Schat, H. and K?renlampi, S.O.

2011

Plant metallothioneins – metal chelators with ROS scavenging activity?.

Plant Biol.13: 225–232.

10941

Zeshan Hassan and Mark G.M. Aarts

2011

Opportunities and feasibilities for biotechnological improvement of Zn, Cd or Ni tolerance and accumulation in plants

Environ.Exp.Bot.72:53-63

10955

Jayakumar Bose, Olga Babourina and Zed Rengel

2011

Role of magnesium in alleviation of aluminium toxicity in plants

J.Exp.Bot.62:2251-2264.

10984

Marc Hanikenne, and Cécile Nouet

2011

Metal hyperaccumulation and hypertolerance: a model for plant evolutionary genomics

Curr.Opin.Plant Biol.14:252-259

Waterlogging/submergence stress               Back to top

9153

Michael B. Jackson

2008

Ethylene-promoted Elongation: an Adaptation to Submergence Stress

Ann.Bot.101:229-248

9330

J. Bailey-Serres and ­L.A.C.J. Voesenek

2008

Flooding Stress: Acclimations and Genetic Diversity

Ann.Rev.Plant Biol.59:313-339

9373

Takeshi Fukaoa and Julia Bailey-Serres

2008

Ethylene—A key regulator of submergence responses in rice

Plant Sci.175:43-51

9374

Katsuhiro Shionoa, Hirokazu Takahashia, Timothy D. Colmerb and Mikio Nakazono

2008

Role of ethylene in acclimations to promote oxygen transport in roots of plants in waterlogged soils

Plant Sci.175:52-58

9410

Timothy D. Colmer  and Timothy J. Flowers

2008

Flooding tolerance in halophytes

New Phytol. Online: 13 May 2008

9440

R.K. Sairam , D. Kumutha, K. Ezhilmathi, P.S. Deshmukh and G.C. Srivastava

2008

Physiology and biochemistry of waterlogging tolerance in plants

Biol.Plant.52:401-412

9614

Michael B. Jackson, Kimiharu Ishizawa and Osamu Ito

2009

Evolution and mechanisms of plant tolerance to flooding stress

Ann.Bot.103:137-142

9621

T.L. Setter, I. Waters, S.K. Sharma, K.N. Singh, N. Kulshreshtha, N.P.S. Yaduvanshi, P.C. Ram, B.N. Singh, J. Rane, G. McDonald, H. Khabaz-Saberi, T. B. Biddulph, R. Wilson, I. Barclay, R. McLean and M. Cakir

2009

Review of wheat improvement for waterlogging tolerance in Australia and India: the importance of anaerobiosis and element toxicities associated with different soils mineral toxicity

Ann.Bot.103:221-235

9624

Abir U. Igamberdiev and Robert D. Hill

2009

Plant mitochondrial function during anaerobiosis

Ann.Bot.103:259-268

10013

T.D. Colmer and L.A.C.J. Voesenek

2009

Flooding tolerance: suites of plant traits in variable environments

Funct.Plant Biol.36:665–681

10684

Timothy David Colmer and Hank Greenway

2010

Ion transport in seminal and adventitious roots of cereals during O2 deficiency

J.Exp.Bot.62:39-57

10731

Namrata Singh Trang T.M. Dang Georgina V. Vergara Dev Mani Pandey Darlene Sanchez C. N. Neeraja Endang M. Septiningsih Merlyn Mendioro Evelyn Mae Tecson-Mendoza Abdelbagi M. Ismail David J. Mackill Sigrid Heuer

2010

Molecular marker survey and expression analyses of the rice submergence-tolerance gene SUB1A

TAG 121:1441-1453

10814

Yoko Hattori, Keisuke Nagai Motoyuki Ashikari

2011

Rice growth adapting to deepwater

Curr.Opin.Plant Biol.14:100-105

11019

Shabala, S.

2011

Physiological and cellular aspects of phytotoxicity tolerance in plants: the role of membrane transporters and implications for crop breeding for waterlogging tolerance.

New Phytol.190:289–298

11020

Steffens, B., Geske, T. and Sauter, M.

2011

Aerenchyma formation in the rice stem and its promotion by H2O2.

New Phytol.190:369–378

  评论这张
 
阅读(1657)| 评论(0)
推荐 转载

历史上的今天

在LOFTER的更多文章

评论

<#--最新日志,群博日志--> <#--推荐日志--> <#--引用记录--> <#--博主推荐--> <#--随机阅读--> <#--首页推荐--> <#--历史上的今天--> <#--被推荐日志--> <#--上一篇,下一篇--> <#-- 热度 --> <#-- 网易新闻广告 --> <#--右边模块结构--> <#--评论模块结构--> <#--引用模块结构--> <#--博主发起的投票-->
 
 
 
 
 
 
 
 
 
 
 
 
 
 

页脚

网易公司版权所有 ©1997-2017