Drought Tolerance Strategies in Plants: A Mechanistic Approach
Tóm tắt
Từ khóa
Tài liệu tham khảo
Abdelraheem A, Esmaeili N, O’Connell M, Zhang J (2019) Progress and perspective on drought and salt stress tolerance in cotton. Ind Crop Prod 130:118–129
Ahmad P, Rasool S, Gul A, Sheikh SA, Akram NA, Ashraf M, Gucel S (2016) Jasmonates: multifunctional roles in stress tolerance. Front Plant Sci 7:813
Ali Q, Anwar F, Ashraf M, Saari N, Perveen R (2013) Ameliorating effects of exogenously applied proline on seed composition, seed oil quality and oil antioxidant activity of maize (Zea mays L.) under drought stress. Int J Mol 14:818–835
Anjum SA, Wang LC, Farooq M, Hussain M, Xue LL, Zou CM (2011a) Brassinolide application improves the drought tolerance in maize through modulation of enzymatic antioxidants and leaf gas exchange. J Agron Crop Sci 197:177–185
AnjumSA XXY, Wang LC, Saleem M, Man C, Lei W (2011b) Morphological, physiological and biochemical responses of plants to drought stress. Afr J Agric Res 6:2026–2032
Anjum SA, Tanveer M, Ashraf U, Hussain S, Shahzad B, Khan I, Wang L (2016) Effect of progressive drought stress on growth, leaf gas exchange, and antioxidant production in two maize cultivars. Environ Sci Pollut Res 23:17132–17141
Anjum SA, Ashraf U, Tanveer M, Khan I, Hussain S, Shahzad B, Wang LC (2017a) Drought induced changes in growth, osmolyte accumulation and antioxidant metabolism of three maize hybrids. Front Plant Sci 8:69
Anjum SA, Ashraf U, Zohaib A, Tanveer M, Naeem M, Ali I, Nazir U (2017b) Growth and development responses of crop plants under drought stress: a review. Zemdirbyste 104:267–276
Aroca R (2012) Plant responses to drought stress. From morphological to molecular features. Springer, Berlin
Arraes FBM, Beneventi MA, de Sa MEL, Paixao JFR, Albuquerque EVS, Marin SRR, Grossi-de-Sa MF (2015) Implications of ethylene biosynthesis and signaling in soybean drought stress tolerance. BMC Plant Biol 15:213
Asaf S, Khan AL, Khan MA, Imran QM, Yun BW, Lee IJ (2017) Osmoprotective functions conferred to soybean plants via inoculation with Sphingomonas sp LK11 and exogenous trehalose. Microbiol Res 205:135–145
Asif MA, Zafar Y, Iqbal J, Iqbal MM, Rashid U, Ali GM, Nazir F (2011) Enhanced expression of AtNHX1, in transgenic groundnut (Arachis hypogaea L.) improves salt and drought tolerence. Mol Biotechnol 49:250–256
Banu MNA, Hoque MA, Watanabe-Sugimoto M, Islam MM, Uraji M, Matsuoka K, Murata Y (2010) Proline and glycinebetaine ameliorated NaCl stress via scavenging of hydrogen peroxide and methylglyoxal but not superoxide or nitric oxide in tobacco cultured cells. Biosci Biotechnol Biochem 74:2043–2049
Bárzana G, Aroca R, Bienert GP, Chaumont F, Ruiz-Lozano JM (2014) New insights into the regulation of aquaporins by the arbuscular mycorrhizal symbiosis in maize plants under drought stress and possible implications for plant performance. Mol Plant Microbe 27:349–363
Berriri S, Garcia AV, Dit Frey NF, Rozhon W, Pateyron S, Leonhardt N, Colcombet J (2012) Constitutively active mitogen-activated protein kinase versions reveal functions of Arabidopsis MPK4 in pathogen defense signaling. Plant Cell 24:4281–4293
Bowles TM, Atallah SS, Campbell EE, Gaudin AC, Wieder WR, Grandy AS (2018) Addressing agricultural nitrogen losses in a changing climate. Nat Sustain 1:399
Brundrett MC, Tedersoo L (2018) Evolutionary history of mycorrhizal symbioses and global host plant diversity. New Phytol 220:1108–1115
Cai W, Liu W, Wang WS, Fu ZW, Han TT, Lu YT (2015) Overexpression of rat neurons nitric oxide synthase in rice enhances drought and salt tolerance. PLoS ONE 10:e0131599
Cardoso VJM (2013) Germinação. In: Kerbauy GB (ed) Fisiologia vegetal. Guanabara Koogan, Rio de Janeiro, pp 384–408
Caser M, D'Angiolillo F, Chitarra W, Lovisolo C, Ruffoni B, Pistelli L, Scariot V (2016) Water deficit regimes trigger changes in valuable physiological and phytochemical parameters in Helichrysum petiolare Hilliard & BL Burtt. Ind Crop Prod 83:680–692
Chang Z, Liu Y, Dong H, Teng K, Han L, Zhang X (2016) Effects of cytokinin and nitrogen on drought tolerance of creeping bentgrass. PLoS ONE 11:e0154005
Chaturvedi AK, Patel MK, Mishra A, Tiwari V, Jha B (2014) The SbMT-2 gene from a halophyte confers abiotic stress tolerance and modulates ROS scavenging in transgenic tobacco. PLoS ONE 9:e111379
Chen J, Nolan TM, Ye H, Zhang M, Tong H, Xin P, Yin Y (2017) Arabidopsis WRKY46, WRKY54, and WRKY70 transcription factors are involved in brassinosteroid-regulated plant growth and drought responses. Plant Cell 29:1425–1439
Choudhury FK, Rivero RM, Blumwald E, Mittler R (2017) Reactive oxygen species, abiotic stress and stress combination. Plant J 90:856–867
Ciura J, Kruk J (2018) Phytohormones as targets for improving plant productivity and stress tolerance. J Plant Physiol 229:32–40
Clauw P, Coppens F, De Beuf K, Dhondt S, Van Daele T, Maleux ID (2015) Leaf responses to mild drought stress in natural variants of Arabidopsis. Plant Physiol 167:800–816
Cohen AC, Bottini R, Pontin M, Berli FJ, Moreno D, Boccanlandro H, Piccoli PN (2015) Azospirillum brasilense ameliorates the response of Arabidopsis thaliana to drought mainly via enhancement of ABA levels. Physiol Plant 153:79–90
Comas L, Becker S, Cruz VMV, Byrne PF, Dierig DA (2013) Root traits contributing to plant productivity under drought. Front Plant Sci 4:442
Cutler SR, Rodriguez PL, Finkelstein RR, Abrams SR (2010) Abscisic acid: emergence of a core signaling network. Annu Rev Plant Biol 61:651–679
Dave S, Tarafdar JC (2012) Arbuscular mycorrhizal fungi encourage drought tolerance of Chlorophytum borivilianum by enhancing antioxidant enzyme system. Appl Biol Res 14:60–70
de Ollas C, Hernando B, Arbona V, Gómez-Cadenas A (2013) Jasmonic acid transient accumulation is needed for abscisic acid increase in citrus roots under drought stress conditions. Physiol Plant 147:296–306
Deeba F, Pandey AK, Ranjan S, Mishra A, Singh R, Sharma YK, Pandey V (2012) Physiological and proteomic responses of cotton (Gossypium herbaceum L.) to drought stress. Plant Physiol Bioch 53:6–18
Dong T, Park Y, Hwang I (2015) Abscisic acid: biosynthesis, inactivation, homoeostasis and signalling. Essays Biochem 58:29–48
Dwivedi SL, Ceccarelli S, Blair MW, Upadhyaya HD, Are AK, Ortiz R (2016) Landrace germplasm for improving yield and abiotic stress adaptation. Trends Plant Sci 21:31–42
Fang Y, Xiong L (2015) General mechanisms of drought response and their application in drought resistance improvement in plants. Cell Mol Life Sci 72:673–689
Fang Y, Liao K, Du H, Xu Y, Song H, Li X, Xiong L (2015) A stress-responsive NAC transcription factor SNAC3 confers heat and drought tolerance through modulation of reactive oxygen species in rice. J Exp Bot 66:6803–6817
Fanizza G, Ricciardi L (2015) Influence of drought stress on shoot, leaf growth, leaf water potential, stomatal resistance in wine grape genotypes (Vitis vinifera L.). Vitis 29:371
Feng Y, Yin Y, Fei S (2015) Down-regulation of BdBRI1, a putative brassinosteroid receptor gene produces a dwarf phenotype with enhanced drought tolerance in Brachypodium distachyon. Plant Sci 234:163–173
Field CB (2014) Climate change 2014–impacts, adaptation and vulnerability: regional aspects. Cambridge University Press, Cambridge
Finkel OM, Castrillo G, Paredes SH, González IS, Dangl JL (2017) Understanding and exploiting plant beneficial microbes. Curr Opin Plant Biol 38:155–163
Foyer CH, Noctor G (2016) Stress-triggered redox signalling: what's in prospect? Plant Cell Environ 39:951–964
Gao Y, Lynch JP (2016) Reduced crown root number improves water acquisition under water deficit stress in maize (Zea mays L.). J Exp Bot 67:4545–4557
Gill SS, Tuteja N (2010) Reactive oxygen species and antioxidant machinery in abiotic stress tolerance in crop plants. Plant Physiol Biochem 48:909–930
Gilliham M, Able JA, Roy SJ (2017) Translating knowledge about abiotic stress tolerance to breeding programmes. Plant J 90:898–917
Glick BR (2012) Plant growth-promoting bacteria: mechanisms and applications. Scientifica 2012:963401
Glick BR (2014) Bacteria with ACC deaminase can promote plant growth and help to feed the world. Microbiol Res 169:30–39
Godfray HCJ, Beddington JR, Crute IR, Haddad L, Lawrence D, Muir JF, Toulmin C (2010) Food security: the challenge of feeding 9 billion people. Science 327:812–818
Golldack D, Li C, Mohan H, Probst N (2014) Tolerance to drought and salt stress in plants: unraveling the signaling networks. Front Plant Sci 5:151
Gururani MA, Upadhyaya CP, Baskar V, Venkatesh J, Nookaraju A, Park SW (2013) Plant growth-promoting rhizobacteria enhance abiotic stress tolerance in Solanum tuberosum through inducing changes in the expression of ROS-scavenging enzymes and improved photosynthetic performance. J Plant Growth Regul 32:245–258
Hanna SHS, Osborne-Lee IW, Cesaretti GP, Misso R, Khalil MT (2016) Ecological agro-ecosystem sustainable development in relationship to other sectors in the economic system, and human ecological footprint and imprint. Agric Agric Sci Procedia 8:17–30
Hashem A, Alqarawi AA, Radhakrishnan R, Al-Arjani ABF, Aldehaish HA, Egamberdieva D, Abd Allah EF (2018) Arbuscular mycorrhizal fungi regulate the oxidative system, hormones and ionic equilibrium to trigger salt stress tolerance in Cucumis sativus L. Saudi J Biol Sci 25(6):1102–1114
Hause B, Mrosk C, Isayenkov S, Strack D (2007) Jasmonates in arbuscular mycorrhizal interactions. Phytochemistry 68:101–110
He L, Yang X, Wang L, Zhu L, Zhou T, Deng J, Zhang X (2013) Molecular cloning and functional characterization of a novel cotton CBL-interacting protein kinase gene (GhCIPK6) reveals its involvement in multiple abiotic stress tolerance in transgenic plants. Biochem Biophys Res Commun 435:209–215
He J, Du YL, Wang T, Turner NC, Yang RP, Jin Y, Li FM (2017a) Conserved water use improves the yield performance of soybean (Glycine max L.) under drought. Agric Water Manage 179:236–245
He J, Gong S, Yu Y, Yu L, Wu L, Mao H, Li R (2017b) Air pollution characteristics and their relation to meteorological conditions during 2014–2015 in major Chinese cities. Environ Pollut 223:484–496
Hozain MD, Abdelmageed H, Lee J, Kang M, Fokar M, Allen RD, Holaday AS (2012) Expression of AtSAP5 in cotton up-regulates putative stress-responsive genes and improves the tolerance to rapidly developing water deficit and moderate heat stress. J Plant Physiol 169:1261–1270
Hussain M, Farooq S, Hasan W, Ul-Allah TM, Farooq M, Nawaz A (2018) Drought stress in sunflower: Physiological effects and its management through breeding and agronomic alternatives. Agric Water Manage 201:152–166
IPCC (2013) The physical science basis. Contribution of Working Group I to the Fifth Assessment Report of the Intergovernmental Panel on Climate Change 2013. Cambridge University Press, Cambridge
IPCC (2014) Mitigation of climate change. Contribution of Working Group III to the Fifth Assessment Report of the Intergovernmental Panel on Climate Change 1454. Ambridge University Press, Cambridge
Iqbal HMN, Kyazze G, Keshavarz T (2013) Advances in the valorization of Lignocellulosic materials by biotechnology: an overview. Bio Resour 8:3157–3176
Isayenkov SV (2019) Genetic sources for the development of salt tolerance in crops. Plant Growth Regul 89:1–17
Jiao J, Ma Y, Chen S, Liu C, Song Y, Qin Y, Yuan C, Liu Y (2016) Melatonin-producing endophytic bacteria from grapevine roots promote the abiotic stress-induced production of endogenous melatonin in their hosts. Front Plant Sci 7:1387
Jung H, Lee D-K, Choi YD, Kim JK (2015) OsIAA6, a member of the rice Aux/IAA gene family, is involved in drought tolerance and tiller outgrowth. Plant Sci 236:304–312
Kalladan R, Lasky JR, Chang TZ, Sharma S, Juenger TE, Verslues PE (2017) Natural variation identifies genes affecting drought-induced abscisic acid accumulation in Arabidopsis thaliana. PNAS 114:11536–11541
Kamthan A, Kamthan M, Azam M, Chakraborty N, Chakraborty S, Datta A (2012) Expression of a fungal sterol desaturase improves tomato drought tolerance, pathogen resistance and nutritional quality. Sci Rep. https://doi.org/10.1038/srep00951
Kang SM, Radhakrishnan R, Khan AL, Kim MJ, Park JM, Kim BR, Lee IJ (2014) Gibberellin secreting rhizobacterium, Pseudomonas putida H-2-3 modulates the hormonal and stress physiology of soybean to improve the plant growth under saline and drought conditions. Plant Physiol Biochem 84:115–124
Kaur H, Sirhindi G, Bhardwaj R, Alyemeni MN, Siddique KH, Ahmad P (2018) 28-homobrassinolide regulates antioxidant enzyme activities and gene expression in response to salt-and temperature-induced oxidative stress in Brassica juncea. Sci Rep 8:8735
Kazan K (2013) Auxin and the integration of environmental signals into plant root development. Ann Bot 112:1655–1665
Khan AL, Waqas M, Kang SM, Al-Harrasi A, Hussain J, Al-Rawahi A, Al Khiziri S, Ullah I, Ali L, Jung HY, Lee IJ (2014) Bacterial endophyte Sphingomonas sp LK11 produces gibberellins and IAA and promotes tomato plant growth. J Microbiol 52:689–695
Khan N, Bano A, Rahman MA, Guo J, Kang Z, Babar MA (2019) Comparative physiological and metabolic analysis reveals a complex mechanism involved in drought tolerance in chickpea (Cicer arietinum L.) induced by PGPR and PGRs. Sci Rep 9:2097
Kieffer M, Neve J, Kepinski S (2010) Defining auxin response contexts in plant development. Curr Opin Plant Biol 13:12–20
Kim TH, Böhmer M, Hu H, Nishimura N, Schroeder JI (2010) Guard cell signal transduction network: advances in understanding abscisic acid, CO2, and Ca2+ signaling. Annu Rev Plant Biol 61:561–591
Kwak JM, Mori IC, Pei ZM, Leonhardt N, Torres MA, Dangl JL, Schroeder JI (2003) NADPH oxidase AtrbohD and AtrbohF genes function in ROS-dependent ABA signaling in Arabidopsis. EMBO 22:2623–2633
Lata C, Prasad M (2011) Role of DREBs in regulation of abiotic stress responses in plants. J Exp Bot 62:4731–4748
Lee M, Jung JH, Han DY, Seo PJ, Park WJ, Park CM (2012) Activation of a flavin mono oxygenase gene YUCCA7 enhances drought resistance in Arabidopsis. Planta 235:923–938
Lemes JG, Kisiala A, Morrison E, Aoki M, Nogueira APO, Neil Emery R (2019) Endosymbiotic Methylobacterium oryzae mitigates the impact of limited water availability in lentil (Lens culinaris) by increasing plant cytokinin levels. Environ Exp Bot 162:525–540
Lenser T, Theißen G (2013) Molecular mechanisms involved in convergent crop domestication. Trends Plant Sci 18:704–714
Li KR, Feng CH (2011) Effects of brassinolide on drought resistance of Xanthoceras sorbifolia seedlings under water stress. Acta Physiol Plant 33:1293–1300
Li B, Zhang C, Cao B, Qin G, Wang W, Tian S (2012) Brassinolide enhances cold stress tolerance of fruit by regulating plasma membrane proteins and lipids. Amino Acids 43:2469–2480
Li LB, Yu DW, Zhao FL, Pang CY, Song MZ, Wei HL, Yu SX (2015) Genome-wide analysis of the calcium-dependent protein kinase gene family in Gossypium raimondii. J Integr 14:29–41
Li W, Herrera-Estrella L, Tran LSP (2016) The Yin-Yang of cytokinin homeostasis and drought acclimation/adaptation. Trends Plant Sci 21:548–550
Li D, Zhang T, Wang M, Liu Y, Brestic M, Chen TH, Yang X (2018a) Genetic engineering of the biosynthesis of glycine betaine modulates phosphate homeostasis by regulating phosphate acquisition in tomato. Front Plant Sci 9:1995
Li D, Mou W, Xia R, Li L, Zawora C, Ying T, Luo Z (2019a) Integrated analysis of high-throughput sequencing data shows abscisic acid-responsive genes and miRNAs in strawberry receptacle fruit ripening. Hortic Res 6:26
Li X, Li M, Zhou B, Yang Y, Wei Q, Zhang J (2019b) Transcriptome analysis provides insights into the stress response crosstalk in apple (Malus domestica) subjected to drought, cold and high salinity. Sci Rep 9:9071
Li R, Liu C, Zhao R, Wang L, Chen L, Yu W, Zhang S, Sheng J, Shen L (2019c) CRISPR/Cas9-Mediated SlNPR1 mutagenesis reduces tomato plant drought tolerance. BMC Plant Biol 19:38
Lim C, Baek W, Jung J, Kim JH, Lee S (2015) Function of ABA in stomatal defense against biotic and drought stresses. Int J Mol Sci 16:15251–15270
Lima JV, Lobato AKS (2017) Brassinosteroids improve photosystem II efficiency, gas exchange, antioxidant enzymes and growth of cowpea plants exposed to water deficit. Physiol Mol Biol Plants 23:59–72
Liu F, Xing S, Ma H, Du Z, Ma B (2013) Cytokinin-producing, plant growth-promoting rhizobacteria that confer resistance to drought stress in Platycladus orientalis container seedlings. Appl Microbiol Biotechnol 97:9155–9164
Liu CY, Zhang F, Zhang DJ, Srivastava AK, Wu QS, Zou YN (2018) Mycorrhiza stimulates root-hair growth and IAA synthesis and transport in trifoliate orange under drought stress. Sci Rep 8:1978
Llanes A, Andrade A, Alemano S, Luna V (2016) Alterations of endogenous hormonal levels in plants under drought and salinity. Am J Plant Sci 7:1357–1371
Luo LJ (2010) Breeding for water-saving and drought-resistance rice (WDR) in China. J Exp Bot 61:3509–3517
Luo J, Zhao LL, Gong SY, Sun X, Li P, Qin LX, Li XB (2011) A cotton mitogen-activated protein kinase (GhMPK6) is involved in ABA-induced CAT1 expression and H2O2 production. J Genet Genomics 38:557–565
Man D, Bao YX, Han LB, Zhang X (2011) Drought tolerance associated with proline and hormone metabolism in two tall fescue cultivars. Hort Sci 46:1027–1032
Manavalan LP, Guttikonda SK, Phan Tran LS, Nguyen HT (2009) Physiological and molecular approaches to improve drought resistance in soybean. Plant Cell Physiol 50:1260–1276
Martignago D, Rico-Medina A, Blasco-Escaméz D, Fontanet-Manzaneque JB, Caño-Delgado AI (2019) Drought resistance by engineering plant tissue-specific responses. Front Plant Sci 10:1676
Martin PA, Michelazzo C, Torres-Ruiz JM, Flexas J, Fernández JE, Sebastiani L, Diaz-Espejo A (2014) Regulation of photosynthesis and stomatal and mesophyll conductance under water stress and recovery in olive trees: correlation with gene expression of carbonic anhydrase and aquaporins. J Exp Bot 65:3143–3156
Mehrotra R, Bhalothia P, Bansal P, Basantani MK, Bharti V, Mehrotra S (2014) Abscisic acid and abiotic stress tolerance–different tiers of regulation. J Plant Physiol 171:486–496
Meyer RS, Purugganan MD (2013) Evolution of crop species: genetics of domestication and diversification. Nat Rev Genet 14:840
Miller GAD, Suzuki N, Ciftci-Yilmaz SULTAN, Mittler R (2010) Reactive oxygen species homeostasis and signalling during drought and salinity stresses. Plant Cell Environ 33:453–467
Mittler R, Blumwald E (2015) The roles of ROS and ABA in systemic acquired acclimation. Plant Cell 27:64–70
Moustakas M, Sperdouli I, Kouna T, Antonopoulou CI, Therios I (2011) Exogenous proline induces soluble sugar accumulation and alleviates drought stress effects on photosystem II functioning of Arabidopsis thaliana leaves. Plant Growth Regul 65:315
Müller M, Munné-Bosch S (2015) Ethylene response factors: a key regulatory hub in hormone and stress signaling. Plant Physiol 169:32–41
Munemasa S, Hauser F, Park J, Waadt R, Brandt B, Schroeder JI (2015) Mechanisms of abscisic acid-mediated control of stomatal aperture. Curr Opin Plant Biol 28:154–162
Nadeem SM, Ahmad M, Zahir ZA, Javai A, Ashraf M (2014) The role of mycorrhizae and plant growth promoting rhizobacteria (PGPR) in improving crop productivity under stressful environments. Biotechnol Adv 32:429–448
Naveed M, Hussain MB, Zahir ZA, Mitter B, Sessitsch A (2014a) Drought stress amelioration in wheat through inoculation with Burkholderia phytofirmans strain PsJN. Plant Growth Regul 73:121–131
Naveed M, Mitter B, Reichenauer TG, Wieczorek K, Sessitsch A (2014b) Increased drought stress resilience of maize through endophytic colonization by Burkholderia phytofirmans PsJN and Enterobacter sp FD17. Environ Exp Bot 97:30–39
Nazar R, Umar S, Khan NA, Sareer O (2015) Salicylic acid supplementation improves photosynthesis and growth in mustard through changes in proline accumulation and ethylene formation under drought stress. S Afr J Bot 98:84–94
Ning J, Li X, Hicks LM, Xiong L (2010) A Raf-like MAPKKK gene DSM1 mediates drought resistance through reactive oxygen species scavenging in rice. Plant Physiol 152:876–890
Nishiyama R, Watanabe Y, Fujita Y, Le DT, Kojima M, Werner T, Sakakibara H (2011) Analysis of cytokinin mutants and regulation of cytokinin metabolic genes reveals important regulatory roles of cytokinins in drought, salt and abscisic acid responses, and abscisic acid biosynthesis. Plant Cell 23:2169–2183
Niu X, Song L, Xiao Y, Ge W (2018) Drought-tolerant plant growth-promoting rhizobacteria associated with foxtail millet in a semi-arid agroecosystem and their potential in alleviating drought stress. Front Microbiol 8:2580
Noctor G, Mhamdi A, Foyer CH (2014) The roles of reactive oxygen metabolism in drought: not so cut and dried. Plant Physiol 164:1636–1648
Noreen S, Athar H, Ashraf M (2013) Interactive effects of watering regimes and exogenously applied osmoprotectants on earliness indices and leaf area index in cotton (Gossypium hirsutum L.) crop. Pak J Bot 45:1873–1881
Obara M, Tamura W, Ebitani T, Yano M, Sato T, Yamaya T (2010) Fine-mapping of qRL6. 1, a major QTL for root length of rice seedlings grown under a wide range of NH 4+ concentrations in hydroponic conditions. Theor Appl Genet 121:535–547
Oukarroum A, El Madidi S, Strasser RJ (2012) Exogenous glycine betaine and proline play a protective role in heat-stressed barley leaves (Hordeum vulgare L.): a chlorophyll a fluorescence study. Plant Biosyst 146:1037–1043
Pallai R, Hynes RK, Verma B, Nelson LM (2012) Phytohormone production and colonization of canola (Brassica napus L.) roots by Pseudomonas fluorescens 6–8 under gnotobiotic conditions. Can J Microbiol 58:170–178
Parankusam S, Adimulam SS, Bhatnagar-Mathur P, Sharma KK (2017) Nitric oxide (NO) in plant heat stress tolerance: current knowledge and perspectives. Front Plant Sci 8:1582. https://doi.org/10.3389/fpls.2017.01582
Patakas AA, Zotos A, Beis AS (2010) Production, localisation and possible roles of nitric oxide in drought-stressed grapevines. Aust J Grape Wine Res 16:203–209
Patil M, Ramu SV, Jathish P, Sreevathsa R, Reddy PC, Prasad TG, Udayakumar M (2014) Overexpression of AtNAC2 (ANAC092) in groundnut (Arachis hypogaea L.) improves abiotic stress tolerance. Plant Biotechnol Rep 8:161–169
Pereyra MA, Garcia P, Colabelli MN, Barassi CA, Creus CM (2012) A better water status in wheat seedlings induced by Azospirillum under osmotic stress is related to morphological changes in xylem vessels of the coleoptile. Appl Soil Ecol 53:94–97
Petrov V, Hille J, Mueller-Roeber B, Gechev TS (2015) ROS-mediated abiotic stress-induced programmed cell death in plants. Front Plant Sci 6:69
Planchet E, Verdu I, Delahaie J, Cukier C, Girard C, Morère-Le Paven MC, Limami AM (2014) Abscisic acid-induced nitric oxide and proline accumulation in independent pathways under water-deficit stress during seedling establishment in Medicago truncatula. J Exp Bot 65:2161–2170
Poupin MJ, Greve M, Carmona V, Pinedo I (2016) A complex molecular interplay of auxin and ethylene signaling pathways is involved in Arabidopsis growth promotion by Burkholderia phytofirmans PsJN. Front Plant Sci 7:492
Quiroga G, Erice G, Aroca R, Chaumont F, Ruiz-Lozano JM (2017) Enhanced drought stress tolerance by the arbuscular mycorrhizal symbiosis in a drought-sensitive maize cultivar is related to a broader and differential regulation of host plant aquaporins than in a drought-tolerant cultivar. Front Plant Sci 8:1056
Raza MAS, Saleem MF, Shah GM, Khan IH, Raza A (2014) Exogenous application of glycine betaine and potassium for improving water relations and grain yield of wheat under drought. J Soil Sci Plant Nutr 14:348–364
Ross AB, Zangger A, Guiraud SP (2014) Cereal foods are the major source of betaine in the Western diet–analysis of betaine and free choline in cereal foods and updated assessments of betaine intake. Food Chem 145:859–865
Ruiz-Lozano JM, Aroca R, Zamarreño ÁM, Molina S, Andreo-Jiménez B, Porcel R, López-Ráez JA (2016) Arbuscular mycorrhizal symbiosis induces strigolactone biosynthesis under drought and improves drought tolerance in lettuce and tomato. Plant Cell Environ 39:441–452
Sah SK, Reddy KR, Li J (2016) Abscisic acid and abiotic stress tolerance in crop plants. Front Plant Sci 7:571
Sahebi M, Hanafi MM, Rafii MY, Mahmud TMM, Azizi P, Osman M, Miah G (2018) Improvement of drought tolerance in rice (Oryza sativa L.): genetics, genomic tools, and the WRKY gene family. Biomed Res Int 2018:3158474
Sahni S, Prasad BD, Liu Q, Grbic V, Sharpe A, Singh SP, Krishna P (2016) Overexpression of the brassinosteroid biosynthetic gene DWF4 in Brassica napus simultaneously increases seed yield and stress tolerance. Sci Rep 6:28298
Said JI, Lin Z, Zhang X, Song M, Zhang J (2013) A comprehensive meta QTL analysis for fiber quality, yield, yield related and morphological traits, drought tolerance, and disease resistance in tetraploid cotton. BMC Genomics 14:776
Saini S, Sharma I, Kaur N, Pati PK (2013) Auxin: a master regulator in plant root development. Plant Cell Rep 32(6):741–757
Sánchez-Romera B, Ruiz-Lozano JM, Li G, Luu DT, Martínez-Ballesta MDC, Carvajal M, Aroca R (2014) Enhancement of root hydraulic conductivity by methyl jasmonate and the role of calcium and abscisic acid in this process. Plant Cell Environ 37:995–1008
Sarwat M, Ahmad P, Nabi G, Hu X (2013) Ca2+ signals: the versatile decoders of environmental cues. Crit Rev Biotechnol 33:97–109
Sato Y, Masuta Y, Saito K, Murayama S, Ozawa K (2011) Enhanced chilling tolerance at the booting stage in rice by transgenic overexpression of the ascorbate peroxidase gene, OsAPXa. Plant Cell Rep 30:399–406
Seo M, Koshiba T (2011) Transport of ABA from the site of biosynthesis to the site of action. J Plant Res 124:501–507
Shahana T, Rao PA, Ram SS, Sujatha E (2015) Mitigation of drought stress by 24-epibarassinolide and 28-homobrassinolide in pigeon pea seedlings. Int J Multidiscip 3:904–911
Shahzad B, Tanveer M, Che Z, Rehman A, Cheema SA, Sharma A, Zhaorong D (2018) Role of 24-epibrassinolide (EBL) in mediating heavy metal and pesticide induced oxidative stress in plants: a review. Ecotox Environ Safe 147:935–944
Sharma L, Dalal M, Verma RK, Kumar SV, Yadav SK, Pushkar S, Chinnusamy V (2018) Auxin protects spikelet fertility and grain yield under drought and heat stresses in rice. Environ Exp Bot 150:9–24
Siddiqui MH, Al-Whaibi MH, Basalah MO (2011) Role of nitric oxide in tolerance of plants to abiotic stress. Protoplasma 248:447–455
Simard S, Asay A, Beiler K, Bingham M, Deslippe J, He X, Teste F (2015) Resource transfer between plants through ectomycorrhizal fungal networks. Mycorrhizal networks. Springer, Dordrecht, pp 133–176
Singh V, van Oosterom EJ, Jordan DR, Messina CD, Cooper M, Hammer GL (2010) Morphological and architectural development of root systems in sorghum and maize. Plant Soil 333:287–299
Singh S, Gupta AK, Kaur N (2012) Influence of drought and sowing time on protein composition, antinutrients, and mineral contents of wheat. Sci World J 2012:485751
Steiner F, Zuffo AM, Zoz T, Zoz A, Zoz J (2017) Drought tolerance of wheat and black oat crops at early stages of seedling growth Tolerância do trigo e aveia-preta ao déficit hídrico durante a fase inicial de crescimento das plântulas. Rev Fac Cienc Agrar 40:576–586
Stocker T (ed) (2014) Climate change 2013: the physical science basis: working Group I contribution to the Fifth assessment report of the Intergovernmental Panel on Climate Change. Cambridge University Press, Cambridge
Talaat NB, Shawky BT, Ibrahim AS (2015) Alleviation of drought-induced oxidative stress in maize (Zea mays L.) plants by dual application of 24-epibrassinolide and spermine. Environ Exp Bot 113:47–58
Tang RJ, Zhao FG, Garcia VJ, Kleist TJ, Yang L, Zhang HX, Luan S (2015) Tonoplast CBL–CIPK calcium signaling network regulates magnesium homeostasis in Arabidopsis. PNAS 112:3134–3139
Tanveer M, Shahzad B, Sharma A, Biju S, Bhardwaj R (2018) 24-Epibrassinolide; an active brassinolide and its role in salt stress tolerance in plants: a review. Plant Physiol Biochem 130:69–79
Timmusk S, Abd El-Daim IA, Copolovici L, Tanilas T, Kannaste A, Behers L, Niinemets U (2014) Drought-tolerance of wheat improved by rhizosphere bacteria from harsh environments: enhanced biomass production and reduced emissions of stress volatiles. PLoS ONE 9:e96086
Todaka D, Zhao Y, Yoshida T, Kudo M, Kidokoro S, Mizoi J, Toyooka K (2017) Temporal and spatial changes in gene expression, metabolite accumulation and phytohormone content in rice seedlings grown under drought stress conditions. Plant J 90:61–78
Torres CA, Sepúlveda G, Kahlaoui B (2017) Phytohormone interaction modulating fruit responses to photooxidative and heat stress on apple (Malus domestica Borkh.). Front Plant Sci 8:2129
Tuteja N, Mahajan S (2007) Calcium signaling network in plants: an overview. Plant Signal Behav 2:79–85
Uga Y, Okuno K, Yano M (2011) Dro1, a major QTL involved in deep rooting of rice under upland field conditions. J Exp Bot 62:2485–2494
Ullah A, Heng S, Munis MFH, Fahad S, Yang X (2015a) Phytoremediation of heavy metals assisted by plant growth promoting (PGP) bacteria: a review. Environ Exp Bot 117:28–40
Ullah A, Mushtaq H, Ali H, Munis MFH, Javed MT, Chaudhary HJ (2015b) Diazotrophs-assisted phytoremediation of heavy metals: a novel approach. Environ Sci Pollut Res 22:2505–2514
Ullah A, Mushtaq H, Fahad S, Shah A, Chaudhary HJ (2017a) Plant growth promoting potential of bacterial endophytes in novel association with Olea ferruginea and Withania coagulans. Microbiology 86:119–127
Ullah A, Sun H, Yang X, Zhang X (2017b) Drought coping strategies in cotton: increased crop per drop. Plant Biotechnol J 15:271–284
Ullah A, Manghwar H, Shaban M, Khan AH, Akbar A, Ali U, Fahad S (2018a) Phytohormones enhanced drought tolerance in plants: a coping strategy. Environ Sci Pollut Res 25:33103–33118
Ullah A, Sun H, Yang X, Zhang X (2018b) A novel cotton WRKY gene, GhWRKY6-like, improves salt tolerance by activating the ABA signaling pathway and scavenging of reactive oxygen species. Physiol Plant 162:439–454
Ullah A, Akbar A, Luo Q, Khan AH, Manghwar H, Shaban M, Yang X (2019a) Microbiome diversity in cotton rhizosphere under normal and drought conditions. Microb Ecol 77:429–439
Ullah A, Nisar M, Ali H, Hazrat A, Hayat K, Keerio AA, Khan A (2019b) Drought tolerance improvement in plants: an endophytic bacterial approach. Appl Microbiol Biotechnol 103:7385–7397
Ullah A, Qamar MTU, Nisar M, Hazrat A, Rahim G, Khan AH, Hayat K, Ahmad S, Ali W, Khan A, Yang X (2020) Characterization of a novel cotton MYB gene, GhMYB108-like responsive to abiotic stresses. Mol Biol Rep 47:1573–1581
Urban J, Ingwers M, McGuire MA, Teskey RO (2017) Stomatal conductance increases with rising temperature. Plant Signal Behav 12:e1356534
Uzilday B, Turkan I, Sekmen AH, Ozgur R, Karakaya HC (2012) Comparison of ROS formation and antioxidant enzymes in Cleome gynandra (C4) and Cleome spinosa (C3) under drought stress. Plant Sci 182:59–70
Vacheron J, Desbrosses G, Bouffaud ML, Touraine B, Moënne-Loccoz Y, Muller D, Prigent-Combaret C (2013) Plant growth-promoting rhizobacteria and root system functioning. Front Plant Sci 4:356
Vallino M, Fiorilli V, Bonfante P (2014) Rice flooding negatively impacts root branching and arbuscular mycorrhizal colonization, but not fungal viability. Plant Cell Environ 37:557–572
Valluru R, Davies WJ, Reynolds MP, Dodd IC (2016) Foliar abscisic acid-to-ethylene accumulation and response regulate shoot growth sensitivity to mild drought in wheat. Front Plant Sci 7:461
Vardharajula S, Ali Z, Grover M, Reddy G, Bandi V (2011) Drought-tolerant plant growth promoting Bacillus spp.: effect on growth, osmolytes, and antioxidant status of maize under drought stress. J Plant Interact 6:1–14
Vargas L, Santa Brígida AB, MotaFilho JP, de Carvalho TG, Rojas CA, Vaneechoutte D, Hemerly AS (2014) Drought tolerance conferred to sugarcane by association with Gluconacetobacter diazotrophicus: a transcriptomic view of hormone pathways. PLoS ONE 9:e114744
Wager A (2012) Social network: JAZ protein interactions expand our knowledge of jasmonate signaling. Front Plant Sci 3:41
Wang F, Liu J, Zhou L, Pan G, Li Z, Cheng F (2016) Senescence-specific change in ROS scavenging enzyme activities and regulation of various SOD isozymes to ROS levels in psf mutant rice leaves. Plant Physiol Biochem 109:248–261
Weisany W, Sohrabi Y, Heidari G, Ghassemi-Golezani K (2018) Effects of mycorrhiza fungi species application on growth and yield of chickpea (Cicer arietinum L.) under drought stress. Environ Stress Crop Sci 12:507–524
Wei-Wei J, Yan W, Hui-Hui Z, Zhi-Li J, Peng W, Xin L, Guang-Yu S (2011) Effects of foliar spraying methyl jasmonate on leaf chlorophyll fluorescence characteristics of flue-cured tobacco seedlings under drought and re-watering. Tai Xue Bao 22:3157–3162
Xie C, Zhang R, Qu Y, Miao Z, Zhang Y, Shen X, Dong J (2012) Overexpression of MtCAS31 enhances drought tolerance in transgenic Arabidopsis by reducing stomatal density. New Phytol 195:124–135
Xu J, Chua NH (2012) Dehydration stress activates Arabidopsis MPK6 to signal DCP1 phosphorylation. EMBO J 31:1975–1984
Xue J, Yu Y, Bai Y, Wang L, Wu Y (2015) Marine oil-degrading microorganisms and biodegradation process of petroleum hydrocarbon in marine environments: a review. Curr Microbiol 71:220–228
Yan M (2015) Seed priming stimulate germination and early seedling growth of Chinese cabbage under drought stress. S Afr J Bot 99:88–92
Yandigeri MS, Meena KK, Singh D, Malviya N, Singh DP, Solanki MK, Arora DK (2012) Drought-tolerant endophytic actinobacteria promote growth of wheat (Triticum aestivum) under water stress conditions. Plant Growth Regul 68:411–420
Yang H, Zhang D, Li X, Li H, Zhang D, Lan H, Wang J (2016) Overexpression of ScALDH21 gene in cotton improves drought tolerance and growth in greenhouse and field conditions. Mol Breed 36:34
Yu LH, Wu SJ, Peng YS, Liu RN, Chen X, Zhao P, Xiang CB (2016) Arabidopsis EDT 1/HDG 11 improves drought and salt tolerance in cotton and poplar and increases cotton yield in the field. Plant Biotechnol J 14:72–84
Zandalinas SI, Balfagón D, Arbona V, Gómez-Cadenas A (2017) Modulation of antioxidant defense system is associated with combined drought and heat stress tolerance in citrus. Front Plant Sci 8:953
Zardak SG, Dehnavi MM, Salehi A, Gholamhoseini M (2018) Effects of using arbuscular mycorrhizal fungi to alleviate drought stress on the physiological traits and essential oil yield of fennel. Rhizosphere 6:31–38
Zarik L, Meddich A, Hijri M, Hafidi M, Ouhammou A, Ouahmane L, Boumezzough A (2016) Use of arbuscular mycorrhizal fungi to improve the drought tolerance of Cupressus atlantica G. C R Biol 339:185–196
Zhang G, Chen M, Li L, Xu Z, Chen X, Guo J, Ma Y (2009) Overexpression of the soybean GmERF3 gene, an AP2/ERF type transcription factor for increased tolerances to salt, drought, and diseases in transgenic tobacco. J Exp Bot 60:3781–3796
Zhang A, Zhang J, Ye N, Cao J, Tan M, Zhang J, Jiang M (2010) ZmMPK5 is required for the NADPH oxidase-mediated self-propagation of apoplastic H2O2 in brassinosteroid-induced antioxidant defence in leaves of maize. J Exp Bot 61:4399–4411
Zhang L, Xi D, Li S, Gao Z, Zhao S, Shi J, Guo X (2011) A cotton group C MAP kinase gene, GhMPK2, positively regulates salt and drought tolerance in tobacco. Plant Mol Biol 77:17–31
Zhang L, Li D, Gao P (2012) Expulsion of selenium/protein nanoparticles through vesicle-like structures by Saccharomyces cerevisiae under microaerophilic environment. World J Microbiol Biotechnol 28(12):3381–3386
Zhang Z, Zhang Q, Wu J, Zheng X, Zheng S, Sun X, Lu T (2013) Gene knockout study reveals that cytosolic ascorbate peroxidase 2 (OsAPX2) plays a critical role in growth and reproduction in rice under drought, salt and cold stresses. PLoS ONE 8:e57472
Zhang WW, Yang HQ, You SZ, Ran K (2015) MhNCED3 in Malus hupehensis Rehd. induces NO generation under osmotic stress by regulating ABA accumulation. Plant Physiol Biochem 96:254–260
Zheljazkov VD, Astatkie T, Jeliazkova E (2013) Effect of foliar application of methyl jasmonate and extracts of juniper and sagebrush on essential oil yield and composition of ‘Native’spearmint. HortScience 48:462–465
Zheng JY, Oluoch G, Riaz MK, Wang XX, Cai XY, Zhou ZL, Wang KB (2016) Mapping QTLs for drought tolerance in an F2: 3 population from an inter-specific cross between Gossypium tomentosum and Gossypium hirsutum. Genet Mol Res. https://doi.org/10.4238/gmr.15038477
Zhou Y, He R, Guo Y, Liu K, Huang G, Peng C, Duan L (2019) A novel ABA functional analogue B2 enhances drought tolerance in wheat. Sci Rep 9:2887
Zhu YN, Shi DQ, Ruan MB, Zhang LL, Meng ZH, Liu J, Yang WC (2013) Transcriptome analysis reveals crosstalk of responsive genes to multiple abiotic stresses in cotton (Gossypium hirsutum L.). PLoS ONE 8(11):e80218