A list of recent scientific review articles on plant stress
topics
o
Use the browser’s Find (ctrl f) command to
search by any word in this table.
o
Author
address/email is available by querying the article ID number* in our Reference
Database.
o
For online article/abstract click on item ID number.
Select Topic:
o Mineral/metal
toxicity stress (and phytoremediation)
o Waterlogging/submergence stress
o Oxidative
stress (abiotic stress only)
o General
stress or multiple stresses
|
ID* |
Author(s) |
Year |
Title |
Source |
|
|
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|
Drought
(water) stress Back to top |
||||
|
Ottó Toldi, Zoltán Tuba and Peter Scott |
2009 |
Vegetative
desiccation tolerance: Is it a goldmine for bioengineering crops? |
Plant
Physiol.Biochem.47:187-199 |
|
|
David
W. Lawlor and Wilmer Tezara |
2009
|
Causes
of decreased photosynthetic rate and metabolic capacity in water-deficient leaf
cells: a critical evaluation of mechanisms and integration of processes |
Ann.Bot.103:561-579 |
|
|
Owen
K. Atkin and David Macherel |
2009
|
The
crucial role of plant mitochondria in orchestrating drought tolerance |
Ann.Bot.103:581-597 |
|
|
Oula Ghannoum |
2009
|
C4
photosynthesis and water stress |
Ann.Bot.103:635-644 |
|
|
Ana
Herrera |
2009
|
Crassulacean acid metabolism
and fitness under water deficit stress: if not for carbon gain, what is
facultative CAM good for? |
Ann.Bot.103:645-653 |
|
|
Anami Sylvester; De
Block Marc; Machuka Jesse; Van Lijsebettens
Mieke |
2009
|
Molecular
Improvement of Tropical Maize for Drought Stress Tolerance in Sub-Saharan
Africa |
Crit.Rev.Plant Sci.28:16-35 |
|
|
Caroline
Sirichandra, Aleksandra Wasilewska,
Florina Vlad, Christiane Valon and Jeffrey
Leung |
2009
|
The
guard cell as a single-cell model towards understanding drought tolerance and
abscisic acid action |
J.Exp.Bot.60:1439-1463 |
|
|
John
P. Moore, Ngoc Tuan Le, Wolf F. Brandt, Azeddine Driouich and Jill M. Farrant |
2009
|
Towards
a systems-based understanding of plant desiccation tolerance |
Trends
Plant Sci.14:110-117 |
|
|
E.M.
Agbicodo, C.A. Fatokun,
S. Muranaka, R.G.F. Visser
and C.G. Linden van der |
2009 |
Breeding
drought tolerant cowpea: constraints, accomplishments, and future prospects |
Euphytica 167:353-370 |
|
|
A.
Blum |
2009 |
Effective
use of water (EUW) and not water-use efficiency (WUE) is the target of crop
yield improvement under drought stress |
Field
Crops Res.112:119-123 |
|
|
Muhammad
Farooq Abdul
Wahid Dong-Jin Lee Osamu Ito
Kadambot H.M. Siddique
|
2009 |
Advances
in Drought Resistance of Rice |
Crit.Rev.Plant Sci.28:199 – 217 |
|
|
D.Z.
Habash, Z. Kehel and M. Nachit |
2009 |
Genomic
approaches for designing durum wheat ready for climate change with a focus on
drought |
J.Exp.Bot.60:2805-2815 |
|
|
Andrew
P. Whitmore and W. Richard Whalley |
2009 |
Physical
effects of soil drying on roots and crop growth |
J.Exp.Bot.60:2845-2857 |
|
|
Lakshmi P. Manavalan, Satish K. Guttikonda, Lam-Son Phan Tran
and Henry T. Nguyen |
2009 |
Physiological
and Molecular Approaches to Improve Drought Resistance in Soybean |
Plant
Cell Physiol.50:1260-1276 |
|
|
R.
Serraj, A. Kumar, K.L. McNally, I. Slamet-Loedin, R. Bruskiewich,
R. Mauleon, J. Cairns, and R.J. Hijmans |
2009 |
Improvement
of Drought Resistance in Rice |
Adv.Agron.103:41-99 |
|
|
Ghasem Hosseini Salekdeh, Matthew
Reynolds, John Bennett5 and John Boyer |
2009 |
Conceptual
framework for drought phenotyping during molecular
breeding |
Trends
Plant Sci.9:488-496 |
|
|
Mark
R. Norton, F. Volaire, F. Leli?vre
and S. Fukai |
2009 |
Identification
and Measurement of Summer Dormancy in Temperate Perennial Grasses |
Crop
Sci.49:2347-2352 |
|
|
F.
Volaire, M.R. Norton and F. Leli?vre |
2009 |
Summer
Drought Survival Strategies and Sustainability of Perennial Temperate Forage
Grasses in Mediterranean Areas |
Crop
Sci.49:2386-2392 |
|
|
Zhongnan Nie and M.R. Norton |
2009 |
Stress
Tolerance and Persistence of Perennial Grasses: The Role of the Summer
Dormancy Trait in Temperate Australia |
Crop
Sci.49:2405-2411 |
|
|
Hamlyn
G. Jones , Rachid Serraj
, Brian R. Loveys , Lizhong
Xiong , Ashley Wheaton and Adam H. Price |
2009 |
Thermal
infrared imaging of crop canopies for the remote diagnosis and quantification
of plant responses to water stress in the field |
Funct.Plant Biol.36:978–989 |
|
|
Chan
Yul Yoo; Heather E. Pence; Paul M. Hasegawa; Michael V. Mickelbart |
2009 |
Regulation
of Transpiration to Improve Crop Water Use |
Crit.Rev.Plant Sci.28: 410 – 431 |
|
|
H.R.
Khan, J.G. Paull, K.H.M. Siddiquec
and F.L. Stoddard |
2010 |
Faba bean breeding for drought-affected
environments: A physiological and agronomic perspective |
Field
Crops Res.115:279-286 |
|
|
Richard
A. Richards, Greg J. Rebetzke, Michelle Watt A.G.
(Tony) Condon , Wolfgang Spielmeyer and Rudy Dolferus
|
2010 |
Breeding
for improved water productivity in temperate cereals: phenotyping,
quantitative trait loci, markers and the selection environment |
Funct.Plant Biol.37:85–97 |
|
|
Claudio
Lovisolo, Irene Perrone ,
Andrea Carra , Alessandra Ferrandino
, Jaume Flexas , Hipolito Medrano
and Andrea Schubert |
2010 |
Drought-induced
changes in development and function of grapevine (Vitis
spp.) organs and in their hydraulic and non-hydraulic interactions at the
whole-plant level: a physiological and molecular update |
Funct.Plant
Biol.37:98–116 |
|
|
Adrienne
B. Nicotra
and Amy Davidson |
2010 |
Adaptive
phenotypic plasticity and plant water use |
Funct.Plant
Biol.37:117–127 |
|
|
J.B.
Passioura and J.F. Angus |
2010 |
Improving
Productivity of Crops in Water-Limited Environments |
Adv.Agron.106:37-75 |
|
|
Mineo Yamaguchi &
Robert E. Sharp |
2010 |
Complexity
and coordination of root growth at low water potentials: recent advances from
transcriptomic and proteomic analyses |
Plant
Cell Environ.32:590 – 603 |
|
|
Francois
Tardieu, Boris Parent & Thierry Simonneau |
2010 |
Control
of leaf growth by abscisic acid: hydraulic or
non-hydraulic processes? |
Plant
Cell Environ.32:636 – 647 |
|
|
M.M.
Chaves, O. Zarrouk, R. Francisco, J.M. Costa, T.
Santos, A.P. Regalado, M.L. Rodrigues
and C.M. Lopes |
2010 |
Grapevine
under deficit irrigation: hints from physiological and molecular data |
Ann.Bot.105:661-676 |
|
|
Tim
J. Brodrib, Taylor S. Feild and Lawren Sack |
2010 |
Viewing
leaf structure and evolution from a hydraulic perspective |
Funct.Plant Biol.37:488–498 |
|
|
Christophe
Maurel, Thierry Simonneau
and Moira Sutka |
2010 |
The
significance of roots as hydraulic rheostats |
J.Exp.Bot.61:3191-3198 |
|
|
Delphine Fleury, Stephen Jefferies, Haydn Kuchel
and Peter Langridge |
2010 |
Genetic
and genomic tools to improve drought tolerance in wheat |
J.Exp.Bot.61:3211-3222
|
|
|
Rana Munns,
Richard A. James, Xavier R.R. Sirault, Robert T. Furbank and Hamlyn G. Jones |
2010 |
New
phenotyping methods for screening wheat and barley
for beneficial responses to water deficit |
J.Exp.Bot.61:3499-3507 |
|
|
L.J.
Luo |
2010 |
Breeding
for water-saving and drought-resistance rice (WDR) in China |
J.Exp.Bot.61:3509-3517 |
|
|
Bettina
Berger, Boris Parent and Mark Tester |
2010 |
High-throughput
shoot imaging to study drought responses |
J.Exp.Bot.61:3519-3528 |
|
|
A.
Glyn Bengough. B.M. McKenzie P.D. Hallett1 and T.A.
Valentine |
2010 |
Root
elongation, water stress, and mechanical impedance: a review of limiting
stresses and beneficial root tip traits |
J.Exp.Bot.62:59-68 |
|
|
Olivier
Leprince and Julia Buitinka |
2010 |
Desiccation
tolerance: From genomics to the field |
Plant
Sci.179:554-564 |
|
|
Rattan S. Yadav,Deepmala
Sehgal and Vincent Vadez |
2011 |
Using genetic mapping and genomics
approaches in understanding and improving drought tolerance in pearl millet |
J.Exp.Bot.62:397-408. |
|
|
C.
Pinheiro and. M.M. Chaves |
2011 |
Photosynthesis
and drought: can we make metabolic connections from available data? |
J.Exp.Bot.62:869-882. |
|
|
Bertrand
Muller,. Florent Pantin,. Michel Génard,. Olivier Turc,Sandra Freixes,Maria
Piques and. Yves Gibon |
2011 |
Water
deficits uncouple growth from photosynthesis, increase C content, and modify
the relationships between C and growth in sink organs |
J.Exp.Bot.62:1715-1729 |
|
|
Nathan
G. McDowell |
2011 |
Mechanisms
Linking Drought, Hydraulics, Carbon Metabolism, and Vegetation Mortality |
Plant
Physiol.155:1051-1059 |
|
|
10927 |
M.
Ashraflow, N.A. Akramlow
, F. Al-Qurainy and M.R. Foolad |
2011 |
Drought
Tolerance: Roles of Organic Osmolytes, Growth
Regulators, and Mineral Nutrients |
Adv.Agron.111:
249-296 |
|
Veeresh R.P. Gowda, Amelia Henry, Akira Yamauchi, H.E. Shashidhar and Rachid Serraj |
2011 |
Root
biology and genetic improvement for drought
avoidance in rice |
Field
Crops Res.122:1-13 |
|
|
Paul
E Verslues and Thomas E Juenger |
2011 |
Drought,
metabolites, and Arabidopsis natural variation: a promising combination for
understanding adaptation to water-limited environments |
Curr.Opin.Plant Biol.14:240-245 |
|
|
Jill
M Farrant and John P Moore |
2011 |
Programming
desiccation-tolerance: from plants to seeds to resurrection plants |
Curr.Opin.Plant Biol.14:340-345 |
|
|
Marta
S. Lopes, Jose Luis Araus, Philippus D.R. van Heerden and Christine H. Foyer |
2011 |
Enhancing
drought tolerance in C4 crops |
J.Exp.Bot.62:3135-3153. |
|
|
S.S.
Hussain, M.T. Iqbal, M.A.
Arif and M. Amjad |
2011 |
Beyond
osmolytes and transcription factors: drought
tolerance in plants via protective proteins and aquaporins |
Biol.Plant.55:401-413 |
|
|
Abraham
Blum |
2011 |
Drought
resistance – is it really a complex trait? |
Func.Plant Biol.38:753-757 |
|
|
Ian
C. Dodd, W.R. Whalley, Eric S. Ober
and M.A.J. Parry |
2011 |
Genetic
and management approaches to boost UK wheat yields by ameliorating water
deficits |
J.Exp.Bot.62:5241-5248 |
|
|
Zeppel, M.J.B., Adams,
H.D. and Anderegg, W.R.L. |
2011 |
Mechanistic
causes of tree drought mortality: recent results, unresolved questions and
future research needs. |
New
Phytologist, 192: 800–803 |
|
|
Challabathula Dinakar, Dimitar Djilianov, Dorothea Bartels |
2012 |
Photosynthesis
in desiccation tolerant plants: Energy metabolism and antioxidative
stress defense |
Plant
Sci.182:29-41 |
|
|
François
Tardieu |
2012 |
Any
trait or trait-related allele can confer drought tolerance: just design the
right drought scenario |
J.Exp.Bot.63:25-31
|
|
|
Heat
stress
Back to
top |
||||
|
10929 |
P.
Krishnan, B. Ramakrishnan‡, K. Raja Reddy and V.R.
Reddy |
2011 |
High-Temperature
Effects on Rice Growth, Yield, and Grain Quality |
Adv.Agron.111:Pages
87-206 |
|
Saidi, Y., Finka, A. and Goloubinoff, P. |
2011 |
Heat
perception and signalling in plants: a tortuous
path to thermotolerance. |
New
Phytol.190:556–565 |
|
|
F.
Shah, J. Huang, K. Cui, L. Nie, T. Shah, C. Chen
And K. Wang |
2011 |
Impact
of high-temperature stress on rice plant and its traits related to tolerance |
J.Agric.Sci.149:545-556 |
|
|
Farooq, Muhammad, Bramley, Helen; Palta, Jairo; Siddique, Kadambot H.M. |
2011 |
Heat
Stress in Wheat during Reproductive and Grain-Filling Phases |
Crit.Rev.Plant Sci.30:491-507 |
|
|
Cold
stress
Back to
top |
||||
|
Muhammad
Farooq , Tariq Aziz , Abdul Wahid , Dong-Jin Lee
and Kadambot H.M. Siddique |
2009 |
Chilling
tolerance in maize: agronomic and physiological approaches |
Crop
Pasture Sci.60:501–516 |
|
|
W.
Link, C. Balko,
and F.L. Stoddard |
2010 |
Winter
hardiness in faba bean: Physiology and breeding |
Field
Crops Res.115:287-296 |
|
|
Ahmad
Maqbool , Shaista Shafiq and Lachlan Lake |
2010 |
Radiant
frost tolerance in pulse crops—a review |
Euphytica 172:1-12 |
|
|
A.
Janská, P. Marscaroník,
S. Zelenková, J. Ovesná |
2010 |
Cold
stress and acclimation – what is important for metabolic adjustment? |
Plant
Biol.12:395 – 405 |
|
|
Michael
F. Thomashow |
2010 |
Molecular
Basis of Plant Cold Acclimation: Insights Gained from Studying the CBF Cold
Response Pathway |
Plant
Physiol.154:571-577 |
|
|
Joaqu?n Medina, Rafael Catal? and Julio Salinas |
2010 |
The
CBFs: Three arabidopsis transcription factors to
cold acclimate |
Plant
Sci.180:3-11 |
|
|
Rub?n Alc?zar, Juan C. Cuevas, Joan Planas,
Xavier Zarza, Cristina Bortolotti,
Pedro Carrasco, Julio Salinas, Antonio F. Tiburcio
and Teresa Altabell |
2010 |
Integration
of polyamines in the cold acclimation response |
Plant
Sci.180:31-38 |
|
|
Simen R. Sandve, Arkadiusz Kosmala, Heidi Rudi, Siri Fjellheim, Marcin Rapacz, Toshihiko
Yamada, and Odd Arne Rognli |
2010 |
Molecular
mechanisms underlying frost tolerance in perennial grasses adapted to cold
climates |
Plant
Sci.180:69-77 |
|
|
Gupta, K.J., Hincha,
D.K. and Mur, L A.J. |
2011 |
NO
way to treat a cold |
New Phytol.189:360–363 |
|
|
Wingler, A. |
2011 |
Interactions between flowering and
senescence regulation and the influence of low temperature in Arabidopsis and
crop plants. |
Ann.Appl.Biol.159:320–338. |
|
|
D.B
Fowler |
2012 |
Wheat
Production in the High Winter Stress Climate of the Great Plains of North
America—An Experiment in Crop Adaptation |
Crop
Sci.52:11-20 |
|
|
Salinity
stress
Back to
top |
||||
|
Ismail
Türkan, and Tijen Demiral |
2009 |
Recent
developments in understanding salinity tolerance |
Env.Exp.Bot.67:2-9 |
|
|
Heikham Evelin, Rupam Kapoor and Bhoopander Giri |
2009 |
Arbuscular mycorrhizal fungi in alleviation of salt stress: a review |
Ann.Bot.104:1263-1280 |
|
|
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 |
|
|
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
|
|
|
S.
Chen & A. Polle
|
2010 |
Salinity
tolerance of Populus |
Plant
Biol.12:317 – 333 |
|
|
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 |
|
|
Natasha
L. Teakle & Stephen D. Tyerman
|
2010 |
Mechanisms
of Cl- transport contributing to salt tolerance |
Plant
Cell Environ.32:566 – 589 |
|
|
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 |
|
|
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 |
|
|
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 |
|
|
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 |
|
|
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 |
|
|
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 |
|
|
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 |
|
|
Carlos
S Galvan-Ampudia and Christa Testerink |
2011 |
Salt
stress signals shape the plant root |
Curr.Opin.Plant Biol.14:296-302 |
|
|
Negrão, 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) |
|
|
Richard
P. Jacoby, Nicolas L. Taylor, A. Harvey Millar |
2011 |
The
role of mitochondrial respiration in salinity tolerance |
Trends
Plant Sci.16:614-623 |
|
|
Afaq A. Mian,
Prasad Senadheera, Frans
J. M. Maathuis |
2011 |
Improving
Crop Salt Tolerance: Anion and Cation Transporters
as Genetic Engineering Targets |
Plant
Stress (journal) 5:64-72 |
|
|
Mineral
deficiency stress
Back to
top |
||||
|
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 |
|
|
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 |
|
|
Trevor
Garnett, Vanessa Conn Brent N. Kaiser |
2009 |
Root
based approaches to improving nitrogen use efficiency in plants |
Plant
Cell Environ.32:1272 – 1283 |
|
|
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 |
|
|
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 |
|
|
Shao Jiang Zheng |
2010 |
Iron
homeostasis and iron acquisition in plants: maintenance, functions and
consequences |
Ann.Bot.105:799-800 |
|
|
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 |
|
|
Xiurong Wang, Xiaolong Yan and Hong Liao |
2010 |
Genetic
improvement for phosphorus efficiency in soybean: a radical approach |
Ann.Bot.106:215-222 |
|
|
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 |
|
|
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. |
|
|
Tzyy-Jen Chiou
and Shu-I Lin |
2011 |
Signaling
Network in Sensing Phosphate Availability in Plants |
Ann.Rev.Plant Biol.62:185-206 |
|
|
Steffen
Abel |
2011 |
Phosphate
sensing in root development |
Curr.Opin.Plant Biol.14:303-309 |
|
|
William C. Plaxton
and Hue T. Tran |
2011 |
Metabolic Adaptations of
Phosphate-Starved Plants |
Plant Physiol.156:1006-1015. |
|
|
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 |
|
|
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 |
|
|
Jonathan P. Lynch |
2011 |
Root Phenes for
Enhanced Soil Exploration and Phosphorus Acquisition: Tools for Future Crops |
Plant Physiol.156:1041-1049 |
|
|
Carlos Calderón-Vázquez,
Ruairidh J.H. Sawers and
Luis Herrera-Estrella |
2011 |
Phosphate Deprivation in Maize: Genetics
and Genomics |
Plant Physiol.156:1067-1077. |
|
|
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 |
|
|
Alan
E. Richardson, Jonathan P. Lynch, Peter R. Ryan, Emmanuel Delhaize, F. Andrew
Smith, Sally E. Smith, Paul R. Harvey, Megan H. Ryan, Erik J. Veneklaas and Hans Lambers, et
al |
2011 |
Plant
and microbial strategies to improve the phosphorus efficiency of agriculture |
Plant
and Soil 349:121-156 |
|
|
Philippe
Hinsinger, Alain Brauman,
Nicolas Devau, Frédéric Gérard, Christophe Jourdan, Jean-Paul
Laclau, Edith Le Cadre, Benoît
Jaillard and Claude Plassard |
2011 |
Acquisition
of phosphorus and other poorly mobile nutrients by roots. Where do plant
nutrition models fail? |
Plant
and Soil 348:29-61 |
|
|
Gianpiero Vigani |
2012 |
Discovering
the role of mitochondria in the iron deficiency-induced metabolic responses
of plants |
J.Plant Physiol.169:1–11 |
|
|
11691 |
Terry
J. Rose, Matthias Wissuwa |
2012 |
Rethinking
Internal Phosphorus Utilization Efficiency: A New Approach Is Needed to
Improve PUE in Grain Crops |
Adv.Agro.116:185–217 |
|
Guohua Xu,1 Xiaorong Fan, Anthony J. Miller |
2012 |
Plant
Nitrogen Assimilation and Use Efficiency |
Ann.Rev.Plant Biol.63:153-182 |
|
|
Mineral/metal
toxicity stress (and phytoremediation) Back to top |
||||
|
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 |
|
|
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 |
|
|
Rob
Reid |
2010 |
Can
we really increase yields by making crop plants tolerant to boron toxicity? |
Plant
Sci.178:9-11 |
|
|
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 |
|
|
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 |
|
|
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 |
|
|
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 |
|
|
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 |
|
|
Ute
Krämer |
2010 |
Metal
Hyperaccumulation in Plants |
Ann.Rev.Plant Biol.61: 517 |
|
|
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 |
|
|
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 |
|
|
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 |
|
|
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 |
|
|
Hassinen, V.H., Tervahauta, A.I., Schat, H. and
Kärenlampi, S.O. |
2011 |
Plant
metallothioneins – metal chelators
with ROS scavenging activity?. |
Plant
Biol.13: 225–232. |
|
|
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 |
|
|
Jayakumar Bose, Olga Babourina and Zed Rengel |
2011 |
Role
of magnesium in alleviation of aluminium toxicity
in plants |
J.Exp.Bot.62:2251-2264. |
|
|
Marc
Hanikenne, and Cécile Nouet |
2011 |
Metal
hyperaccumulation and hypertolerance:
a model for plant evolutionary genomics |
Curr.Opin.Plant Biol.14:252-259 |
|
|
Naser A. Anjum, Iqbal Ahmad, Iram Mohmood, Mário Pacheco, Armando C. Duarte, Eduarda
Pereira, Shahid Umar, Altaf Ahmad, Nafees A. Khan,
Muhammad Iqbal, M.N.V. Prasad |
2012 |
Modulation
of glutathione and its related enzymes in plants’ responses to toxic metals
and metalloids—A review |
Environ.Exp.Bot.75:307-324 |
|
|
El
Mehdawi, A.F. and Pilon-Smits,
E.A H. |
2012 |
Ecological
aspects of plant selenium hyperaccumulation. |
Plant
Biol.14:1–10 |
|
|
Francisco
J. Escaray, Ana B. Menendez, Andrés Gárriz, Fernando L. Pieckenstain,
María J. Estrella, Luis
N. Castagno, Pedro Carrasco, Juan Sanjuán, Oscar A.
Ruiz |
2012 |
Ecological
and agronomic importance of the plant genus Lotus. Its application in
grassland sustainability and the amelioration of constrained and contaminated
soils |
Plant
Sci.182:121-133 |
|
|
Waterlogging/submergence stress
Back to
top |
||||
|
Michael
B. Jackson, Kimiharu Ishizawa and Osamu Ito |
2009 |
Evolution
and mechanisms of plant tolerance to flooding stress |
Ann.Bot.103:137-142 |
|
|
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 |
|
|
Abir U. Igamberdiev
and Robert D. Hill |
2009 |
Plant
mitochondrial function during anaerobiosis |
Ann.Bot.103:259-268 |
|
|
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 |
|
|
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 |
|
|
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 |
|
|
Yoko
Hattori, Keisuke Nagai Motoyuki Ashikari |
2011 |
Rice
growth adapting to deepwater |
Curr.Opin.Plant Biol.14:100-105 |
|
|
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 |
|
|
Steffens,
B., Geske, T. and Sauter,
M. |
2011 |
Aerenchyma formation in the
rice stem and its promotion by H2O2. |
New
Phytol.190:369–378 |
|
|
11631 |
D.J.
Mackill, A.M. Ismail, U.S. Singh, R.V. Labios, T.R. Paris |
2012 |
Development
and Rapid Adoption of Submergence-Tolerant (Sub1) Rice Varieties |
Adv.Agron.115:299–352 |
|
Oxidative
stress & antioxidants
Back to
top |
||||
|
Pinja Jaspers and Jaakko Kangasj?rvi |
2010 |
Reactive
oxygen species in abiotic stress signaling |
Physiol.Plant.138:405
– 413 |
|
|
Gad
Miller , Nobuhiro Suzuki , Sultan Ciftci-Yilmaz & Ron Mittler |
2010 |
Reactive
oxygen species homeostasis and signalling during
drought and salinity stresses |
Plant
Cell Environ.32:453 – 467 |
|
|
Sarvajeet Singh Gill, and Narendra Tutej |
2010 |
Reactive
oxygen species and antioxidant machinery in abiotic
stress tolerance in crop plants |
Plant
Physiol.Biochem.48:909-930 |
|
|
SUZUKI,
N., KOUSSEVITZKY, S., MITTLER, R. and MILLER, G. |
2012 |
ROS
and redox signalling in
the response of plants to abiotic stress. |
Plant
Cell Environ.35:259–270. |
|
|
General or multiple stresses Back to top |
||||
|
Andrzej Bajguz, and Shamsul Hayata |
2009 |
Effects
of brassinosteroids on the plant responses to
environmental stresses |
Plant
Physiol.Biochem.47:1-8 |
|
|
Kazuo
Nakashima, Yusuke Ito, and Kazuko Yamaguchi-Shinozaki |
2009 |
Transcriptional
Regulatory Networks in Response to Abiotic Stresses
in Arabidopsis and Grasses |
Plant
Physiol.149:149: 88-95 |
|
|
Jungwook Yang, Joseph W. Kloepper and Choong-Min Ryu |
2009 |
Rhizosphere bacteria help
plants tolerate abiotic stress |
Trends
Plant Sci.14:1-4 |
|
|
R.
Wassmann, , S.V.K. Jagadish,
S. Heuer, A. Ismail, E. Redona,
R. Serraj, R.K. Singh, G. Howell, H. Pathak and K. Sumfleth |
2009
|
Climate
Change Affecting Rice Production: The Physiological and Agronomic Basis for
Possible Adaptation Strategies |
Adv.Agron.101:59-122 |
|
|
M.M.
Chaves, J. Flexas and C. Pinheiro |
2009
|
Photosynthesis
under drought and salt stress: regulation mechanisms from whole plant to cell |
Ann.Bot.103:551-560 |
|
|
Nelson
J. M. Saibo, Tiago Lourenço
and Maria Margarida Oliveira |
2009
|
Transcription
factors and regulation of photosynthetic and related metabolism under
environmental stresses |
Ann.Bot.103:609-623 |
|
|
Viswanathan Chinnusamy and Jian-Kang Zhu |
2009
|
Epigenetic
regulation of stress responses in plants |
Curr.Opin.Plant Biol.12:133-139 |
|
|
Christos
Dordas |
2009
|
Nonsymbiotic haemoglobins and stress tolerance in plants |
Plant
Sci.176:433-440 |
|
|
Stefan
Hörtensteiner |
2009
|
Stay-green
regulates chlorophyll and chlorophyll-binding protein degradation during
senescence |
Trends
Plant Sci.14:155-162 |
|
|
Steven
R. Evett and Judy A. Tolk |
2009 |
Can
Water Use Efficiency Be Modeled Well Enough to Impact Crop Management? |
Agron.J.101:423-5 |
|
|
Sally
Wilkinson and Wolfram Hartung |
2009 |
Food
production: reducing water consumption by manipulating long-distance chemical
signalling in plants |
J.Exp.Bot.60:1885-1891 |
|
|
Mikhail
A. Semenov and Nigel G. Halford |
2009 |
Identifying
target traits and molecular mechanisms for wheat breeding under a changing
climate |
J.Exp.Bot.60:2791-2804 |
|
|
Csaba Papdi , Mary Prathiba Joseph, Imma Pérez Salamó,
Sabina Vidal and László Szabados |
2009 |
Genetic
technologies for the identification of plant genes controlling environmental
stress responses |
Funct.Plant Biol.36:696–720 |
|
|
Robert
B. Heinen, Qing Ye and François Chaumont |
2009 |
Role
of aquaporins in leaf physiology |
J.Exp.Bot.60:2971-2985 |
|
|
M.A.
El-Sharkawy |
2009 |
Pioneering
research on C4 leaf anatomical, physiological, and agronomic characteristics of
tropical monocot and dicot plant species:
Implications for crop water relations and productivity in comparison to C3
cropping systems |
Photosynthetica 47:163-183 |
|
|
Christian
Dimkpa , Tanja Weinand & Folkard Asch |
2009 |
Plant–rhizobacteria interactions alleviate abiotic
stress conditions |
Plant
Cell Environ.32:1682 – 1694 |
|
|
M.
Reynolds , Y. Manes , A. Izanloo & P. Langridge |
2009 |
Phenotyping approaches for
physiological breeding and gene discovery in wheat |
Ann.Appl.Biol.155:309
– 320 |
|
|
Viswanathan Chinnusamy and Jian-Kang Zhu |
2009 |
Epigenetic
regulation of stress responses in plants |
Curr.Opin.Plant Biol.12:133-139 |
|
|
Taku Takahashi and Jun-Ichi Kakehi |
2010 |
Polyamines:
ubiquitous polycations with unique roles in growth
and stress responses |
Ann.Bot.104:1-6 |
|
|
W.K.
Anderson |
2010 |
Closing
the gap between actual and potential yield of rainfed
wheat. The impacts of environment, management and cultivar |
Field
Crops Res.116:14-22 |
|
|
J.-P.
Schnitzler, S. Louis, K. Behnke & M. Loivam?ki |
2010 |
Poplar
volatiles – biosynthesis, regulation and (eco)physiology of isoprene and
stress-induced isoprenoids |
Plant
Biol.12:302 – 316 |
|
|
László Szabados and Arnould Savouré |
2010 |
Proline: a
multifunctional amino acid |
Trends
Plant Sci.15:89-97 |
|
|
Alejandra
A. Covarrubias & Jos? L. Reyes |
2010 |
Post-transcriptional
gene regulation of salinity and drought responses by plant microRNAs |
Plant
Cell Environ.32:481 – 489 |
|
|
Eviatar Nevo & Guoxiong Chen |
2010 |
Drought
and salt tolerances in wild relatives for wheat and barley improvement |
Plant
Cell Environ.32:670 – 685 |
|
|
Francesco
Loreto, and J?rg-Peter
Schnitzler |
2010 |
Abiotic stresses and
induced BVOCs |
Trends
Plant Sci.15:154-166 |
|
|
P.K.
Agarwal B. Jha |
2010 |
Transcription
factors in plants and ABA dependent and independent abiotic
stress signaling |
Biol.Plant.54:201-212 |
|
|
François
Tardieu and Roberto Tuberosa |
2010 |
Dissection
and modelling of abiotic
stress tolerance in plants |
Curr.Opin.Plant Biol.13:206-212 |
|
|
Rubén
Alcázar, Teresa Altabella,
Francisco Marco, Cristina Bortolotti, Matthieu Reymond, Csaba Koncz, Pedro Carrasco and
Antonio F. Tiburcio |
2010 |
Polyamines:
molecules with regulatory functions in plant abiotic
stress tolerance |
Planta 231 1237-1249 |
|
|
M.
Miransari |
2010 |
Contribution
of arbuscular mycorrhizal
symbiosis to plant growth under different types of soil stress |
Plant
Biol.12:563 – 569 |
|
|
Agepati S. Raghavendra, Vijay K. Gonugunta,
Alexander Christmann and Erwin Grill |
2010 |
ABA
perception and signaling |
Trends
Plant Sci.15:395-401 |
|
|
Olivier
Fernandez, Linda Béthencourt, Anthony Quero, Rajbir S. Sangwan and Christophe Clément |
2010 |
Trehalose and plant stress
responses: friend or foe? |
Trends
Plant Sci.15:409-417 |
|
|
Dietmar Schwarz, Youssef Rouphael, Giuseppe Colla and Jan Henk Venem |
2010 |
Grafting
as a tool to improve tolerance of vegetables to abiotic
stresses: Thermal stress, water stress and organic pollutants |
Sci.Hort.127:162-171 |
|
|
Ishita Ahuja, Ric C.H. de Vos, Atle M. Bones and Robert
D. Hall |
2010 |
Plant
molecular stress responses face climate change |
Trends
Plant Sci.15:664-674 |
|
|
Manoj K. Rai, , Rajwant
K. Kalia, Rohtas Singh,
Manu P. Gangola and A.K. Dhawan |
2011 |
Developing stress tolerant plants through
in vitro selection—An overview of the recent progress |
Environ.Exp.Bot.71:89-98 |
|
|
Chen, T.H.H. and Murata, N. |
2011 |
Glycinebetaine protects plants against abiotic
stress: mechanisms and biotechnological applications. |
Plant Cell Environ.34:1–20. |
|
|
Lauri Vaahtera and Mikael Brosché |
2011 |
More
than the sum of its parts – How to achieve a specific transcriptional
response to abiotic stress |
Plant
Sci.180:421-430 |
|
|
Veronika Doubnerová and Helena Ryšlavá |
2011 |
What
can enzymes of C4 photosynthesis do for C3 plants under stress? |
Plant
Sci.180:575-583 |
|
|
10928 |
Rajendra Prasadlow |
2011 |
Aerobic
Rice Systems |
Adv.Agron.111:207-247 |
|
Stuart
J Roy, Elise J Tucker and Mark Tester, |
2011 |
Genetic
analysis of abiotic stress tolerance in crops |
Curr.Opin.Plant Biol.14:232-239 |
|
|
Alex
Boyko and Igor Kovalchuk |
2011 |
Genome
instability and epigenetic modification — heritable responses to
environmental stress? |
Curr.Opin.Plant Biol.14:260-266 |
|
|
Marie
Mirouze and Jerzy Paszkowski |
2011 |
Epigenetic
contribution to stress adaptation in plants |
Curr.Opin.Plant Biol.14:267-274 |
|
|
Zvi Peleg
and Eduardo Blumwald |
2011 |
Hormone
balance and abiotic stress tolerance in crop plants |
Curr.Opin.Plant Biol.14:290-295 |
|
|
Jinming Zhu, Paul A
Ingram, Philip N Benfey |
2011 |
From
lab to field, new approaches to phenotyping root
system architecture |
Curr.Opin.Plant Biol.14:310-317 |
|
|
Terri
A Long |
2011 |
Many
needles in a haystack: cell-type specific abiotic
stress responses |
Curr.Opin.Plant Biol.14:325-331 |
|
|
Koltai, H. |
2011 |
Strigolactones are regulators of
root development. (also see Here) |
New
Phytol.190:545–549 |
|
|
Neil C. Turner, Nicholas Molyneux , Sen Yang , You-Cai Xiong and Kadambot H.M. Siddique |
2011 |
Climate change in south-west Australia
and north-west China: challenges and opportunities for crop production |
Crop Pasture Sci.62:445-456 |
|
|
Mahmoud W. Yaish, Joseph Colasanti and Steven J. Rothstein |
2011 |
The role of epigenetic processes in
controlling flowering time in plants exposed to stress |
J.Exp.Bot.62:3727-3735. |
|
|
Zhu,
C., Ding, Y. and Liu, H. |
2011 |
MiR398
and plant stress responses. |
Physiol.Plant.143:1–9 |
|
|
K.
Vijayan, P.P. Srivastava,
M.K. Raghunath and B. Saratchandra |
2011 |
Enhancement
of stress tolerance in mulberry |
Sci.Hort.129:511-519 |
|
|
Feng Qin, Kazuo Shinozaki and Kazuko
Yamaguchi-Shinozaki |
2011 |
Achievements
and Challenges in Understanding Plant Abiotic
Stress Responses and Tolerance |
Plant
Cell Physiol.52:1569-1582 |
|
|
Artur Conde, M. Manuela Chaves and Hernâni
Gerós |
2011 |
Membrane
Transport, Sensing and Signaling in Plant Adaptation to Environmental Stress |
Plant
Cell Physiol.52:1583-1602 |
|
|
Ravi
Valluru, Wim Van den Ende |
2011 |
Myo-inositol and beyond –
Emerging networks under stress |
Plant
Sci.181:387-400 |
|
|
Francisco
J. Corpas, Marina Leterrier,
Raquel Valderrama, Morad Airaki, Mounira Chaki, José M. Palma, Juan B. Barroso |
2011 |
Nitric
oxide imbalance provokes a nitrosative response in
plants under abiotic stress |
Plant
Sci.181:604-611 |
|
|
Shashank K. Pandey, Akula Nookarajua, Chandrama P. Upadhyaya, Mayank A. Gururani, Jelli Venkatesh, Doo-Hwan Kim and Se Won Park |
2011 |
An
Update on Biotechnological Approaches for Improving Abiotic
Stress Tolerance in Tomato |
Crop
Sci.51:2303-2324 |
|
|
Charu Lata and Manoj Prasad |
2011 |
Role
of DREBs in regulation of abiotic stress responses
in plants |
J.Exp.Bot.62:4731-4748 |
|
|
Victoria
Gonzalez-Dugo, Jean-Louis Durand and François Gastal |
2010 |
Water
deficit and nitrogen nutrition of crops. A review |
Agron.Sustain.Develop.30:529-544 |
|
|
F.
Andrew Smith and Sally E. Smith |
2011 |
What
is the significance of the arbuscular mycorrhizal colonisation of
many economically important crop plants? |
Plant
and Soil 348:63-79 |
|
|
Asim Kadioglu,
Rabiye Terzi, Neslihan Saruhan, Aykut Saglam |
2012 |
Current
advances in the investigation of leaf rolling caused by biotic and abiotic stress factors |
Plant
Sci.182:42-48 |
|
|
Sasidharan, Rashmi; Voesenek, Laurentius ACJ; Pierik, Ronald |
2011 |
Cell
Wall Modifying Proteins Mediate Plant Acclimatization to Biotic and Abiotic Stresses |
Crit.Rev.Plant Sci.30:548-562 |
|
|
Ricardo
Aroca Rosa Porcel and
Juan Manuel Ruiz-Lozano |
2012 |
Regulation
of root water uptake under abiotic stress
conditions |
J.Exp.Bot.63:43-57
|
|
|
Wendy
J. Lyzenga and Sophia L. Stone |
2012 |
Abiotic stress tolerance
mediated by protein ubiquitination |
J.Exp.Bot.63:599-616
|
|
|
Julia
Krasensky and Claudia Jonak |
2012 |
Drought,
salt, and temperature stress-induced metabolic rearrangements and regulatory networks |
J.Exp.Bot.63:1593-1608 |
|
|
Sukbong Ha, Radomira Vankova, Kazuko
Yamaguchi-Shinozaki, Kazuo Shinozaki, Lam-Son Phan
Tran |
2012 |
Cytokinins: metabolism and
function in plant adaptation to environmental stresses |
Trends
Plant Sci.17:172–179 |
|
------------------------------------------------------------------------------------------
(*)I.D. number
in Plantstress Reference
Database
-11690