Morpho-anatomical adaptations to waterlogging by germplasm accessions in a tropical forage grass

AoB PLANTS

Volumn 5, Issue , 2013, Pages

  Cardoso, Juan Andrés ^a,b   Rincón, Joisse ^a   De La Cruz Jimenez, Juan ^a   Noguera, Diana ^c,d   Rao, Idupulapati M ^a  

^a INTERNATIONAL CENTER FOR TROPICAL AGRICULTURE CIAT   (Colombia)

^b UNIVERSITY OF GRANADA   (Spain)

^c UPMC University Paris 06   (France)

^d UNIVERSITY OF BARCELONA   (Spain)

Author keywords

Aerenchyma; Brachiaria humidicola; Dry mass production; Oxygen deficiency; Root penetration; Root traits

Indexed keywords

EID: 84893608046     PISSN: None     EISSN: 20412851     Source Type: Journal    
DOI: 10.1093/aobpla/plt047     Document Type: Article

References (66)

1. Abiko T, Kotula L, Shiono K, Malik AI, Colmer TD, Nakazono M. 2012. Enhanced formation of aerenchyma and induction of a barrier to radial oxygen loss in adventitious roots of Zea nicaraguensis contribute to its waterlogging tolerance as compared with maize (Zea mays ssp. mays). Plant, Cell and Environment 35: 1618-1630.
2. AfreenF, Zobayer SMA, ArmstrongJ, ArmstrongW. 2007. Pressuregradients along whole culms and leaf sheaths, and other aspects of humidity-induced gas transport in Phragmites australis. Journal of Experimental Botany 58:1651-1662. (Pubitemid 47356003)
3. Aguilar EA, Turner DW, Gibbs DJ, Armstrong W, Sivasithamparam K. 2003. Oxygen distribution and movement, respiration and nutrient loading in banana roots (Musa sp. L) subjected to aerated and oxygen-depleted environments. Plant and Soil 253:91-102.
4. Aguilar EA, Santos PJA, Tamisin LT Jr. 2008. Root characteristics of five local banana cultivars (Musa spp.) under waterlogged conditions. The Philippine Journal of Crop Science 33:14-23.
5. Argel PJ, Keller-Grein G. 1996. Regional experience with Brachiaria: tropical America-humid lowlands. In: Miles JW, Mass BL, Valle CB, eds. Brachiaria: biology, agronomy and improvement. Cali: CIAT/Embrapa, 205-224.
6. Armstrong J, Keep R, ArmstrongW. 2009. Effects of oil on internal gas transport, radial oxygen loss, gas films and bud growth in Phragmites australis. Annals of Botany 103:333-340.
7. Armstrong W. 1971. Radial oxygen losses from intact rice roots as affected by distance fromthe apex, respiration and waterlogging. Physiologia Plantarum 25:192-197.
8. ArmstrongW. 1979. Aeration in higher plants. Advances in Botanical Research 7:225-332.
9. ArmstrongW. 1994. Polarographic oxygen electrodes and their use in plant aeration studies. Proceedings of the Royal Society of Edinburgh 102B:511-528.
10. Armstrong W, Beckett PM. 1987. Internal aeration and the development of stellar anoxia in submerged roots: a multishelled mathematical model combining axial diffusion of oxygen in the cortex with radial losses to the stele, the wall layers and the rhizosphere. New Phytologist 105:221-245.
11. Armstrong W, Drew MC. 2002. Root growth and metabolism under oxygen deficiency. In: Waisel Y, Eshel A, Kafkafi U, eds. Plant roots: the hidden half, 3rd edn. New York: Marcel Decker Inc., 729-761.
12. ArmstrongW, Healy MT, Lythe S. 1983. Oxygen diffusion in pea. II. The oxygen status of the primary root as affected by growth, the production of laterals and radial oxygen loss. New Phytologist 94: 549-559.
13. Armstrong W, Cousins D, Armstrong J, Turner DW, Beckett PM. 2000. Oxygen distribution in wetland plant roots and permeability barriers to gas-exchange with the rhizosphere: a microelectrode and modelling study with Phragmites australis. Annals of Botany 86:687-703.
14. Baruch Z. 1994. Responses to drought and flooding in tropical forage grasses. I. Biomass allocation, leaf growth and mineral nutrients. Plant and Soil 164:87-96.
15. Baruch Z, Merida T. 1995. Effects of drought and flooding on root anatomy of four tropical forage grasses. International Journal of Plant Sciences 156:514-521.
16. Bramley H, Tyerman SD, Turner DW, Turner N. 2011. Root growth of lupins is more sensitive to waterlogging than wheat. Functional Plant Biology 38:910-918.
17. Butterbach-Bahl K, Papen H, Rennenberg H. 1997. Impact of gas transport through rice cultivars on methane emission from rice paddy fields. Plant, Cell and Environment 20:1175-1183. (Pubitemid 27398751)
18. Caetano LPS, Dias-Filho MB. 2008. Responses of six Brachiaria spp. accessions to root zone flooding. Revista Brasileira de Zootecnia 37:795-801. (Pubitemid 351717019)
19. Canchila ER, Soca M, Wencomo HB, Ojeda F, Mateus H, Romero E, Arguello G, Ruiz R,Canchila N. 2011. Comportamiento agronomico de siete accesiones de Brachiaria humidicola durante la fase de establecimiento. Pastos y Forrajes 34:155-166.
20. Cardoso JA, Jimenez JC, RinconJD,RaoIM. 2010.Variation for root aerenchyma formation in accessions of B. humidicola under waterlogged and drained soil conditions. Tropical Forages Annual Report. Cali: CIAT, 48-52.
21. Colmer TD. 2003. Long-distance transport of gases in plants: a perspective on internal aeration and radial oxygen loss from roots. Plant, Cell and Environment 26:17-36. (Pubitemid 36117278)
22. Colmer TD, Greenway H. 2005. Oxygen transport, respiration, and anaerobic carbohydrate catabolism in roots in flooded soils. In: Lambers H, Rivas-Carbo M, eds. Plant respiration. Heidelberg: Springer, 137-158.
23. Colmer TD, Voesenek LACJ. 2009. Flooding tolerance: suites of plant traits in variable environments. Functional Plant Biology 36: 665-681.
24. Colmer TD, Gibberd MR, Wiengweera A, Tinh TK. 1998. The barrier to radial oxygen loss from roots of rice (Oryza sativa L.) is induced by growth in stagnant solution. Journal of Experimental Botany 49:1431-1436. (Pubitemid 28382140)
25. Cruz P. 2009. Evaluacion agronomica de 23 genotipos de Brachiaria humidicola en el tropico humedo de Mexico. MSc Thesis, Colegio de Postgraduados-Institucion de ensenanza e investigacion en ciencias agropecuarias Montecillo, Mexico.
26. Dias-Filho MB, Carvalho CJR. 2000. Physiological and morphological responses of Brachiaria spp. to flooding. Pesquisa Agropecuaria Brasileira 35:1959-1966. (Pubitemid 33208395)
27. Enstone DE, Peterson CA. 2005. Suberin lamella development in maize seedlings roots grown in aerated and stagnant conditions. Plant, Cell and Environment 28:444-455. (Pubitemid 40428331)
28. Hare MD, Saengkham M, Tatsapong P, Wongpichet K, Tudsri S. 2004. Waterlogging tolerance of some tropical pastures. Tropical Grasslands 38:227-233.
29. Huber H, Jacobs E, Visser EJW. 2009. Variation in flooding-induced morphological traits in natural populations of white clover (Trifolium repens) and their effects on plant performance during soil flooding. Annals of Botany 103:377-386.
30. Imaz JA, Gimenez DO, Grimoldi AA, Striker GG. 2012. The effect of submergence on anatomical, morphological and biomass allocation responses of tropical grasses Chloris gayana and Panicum coloratum at seedling stage. Crop & Pasture Science 63:1145-1155.
31. Jackson MB, DrewMC. 1984. Effects of flooding on growth and metabolism of herbaceous plants. In: Kozlowsky TT, ed. Flooding and plant growth. Orlando: Academic Press, 47-128.
32. Jackson MB, Armstrong W. 1999. Formation of aerenchyma and the process of plant ventilation in relation to soil flooding andsubmergence. Plant Biology 1:274-287. (Pubitemid 29257167)
33. Juarez J, Bolanos ED, Vargas LM, Medina S, Martnez-Hernandez PA. 2011. Protein dilution curves in genotypes of Brachiaria humidicola (Rendle) Schweick. Cuban Journal of Agricultural Science 45: 321-330.
34. Justin SHFW, Armstrong W. 1987. The anatomical characteristics of roots and plant response to soil flooding. New Phytologist 106: 465-495.
35. Justin SHFW, ArmstrongW. 1991. A reassessment of the influence of NAA on aerenchyma formation in maize roots. New Phytologist 117:607-618.
36. Laan P, Berrevoets MJ, Lythe S, ArmstrongW, Blom CWPM. 1989. Root morphology and aerenchyma formation as indicators of the flood tolerance of Rumex species. Journal of Ecology 77:693-703. (Pubitemid 20422013)
37. Loreti J, Oesterheld M. 1996. Intraspecific variation in the resistance to flooding and drought in populations of Paspalum dilatatum from different topographic positions. Oecologia 108: 279-284.
38. Malik AI, Colmer TD, Lambers H, Setter TL, Schortemeyer M. 2002. Short-term waterlogging has long-term effects on the growth and physiology of wheat. New Phytologist 153:225-236. (Pubitemid 34140138)
39. Mano Y, Omori F. 2013. Relationship between constitutive root aerenchyma formation and flooding tolerance in Zea nicaraguensis. Plant and Soil 370:447-460.
40. Mano Y, Omori F, Takamizo T, Kindiger B, Bird McK R, Loaisiga CH. 2006. Variation in root aerenchyma formation in flooded and nonflooded maize and teosinte seedlings. Plant and Soil 281: 269-279. (Pubitemid 43724200)
41. McDonald MP, Galwey NW, Colmer TD. 2001.Waterlogging tolerance in the tribe Triticeae: the adventitious roots of Critesion marinum have a relatively high porosity and a barrier to radial oxygen loss. Plant, Cell and Environment 24:585-596. (Pubitemid 32526132)
42. McDonald MP, GalweyNW, Colmer TD. 2002. Similarity and diversity in adventitious root anatomy as related to root aeration among a range of wetland and dryland species. Plant, Cell and Environment 52:441-451. (Pubitemid 34209335)
43. Miles JW, Valle CB, Rao IM, Euclides VPB. 2004. Brachiaria grasses. In Moser L, Burson B, Sollenberger LE, eds. Warm-season grasses. Madison: ASA-CSSA-SSSA, 745-783.
44. Naidoo G., Naidoo S. 1992.Waterlogging responses of Sporobolus virginicus (L.) Kunth. Oecologia 90:445-450.
45. Pang J, Zhou M, Mendham N, Shabala S. 2004. Growth and physiological responses of six barley genotypes to waterlogging and subsequent recovery. Australian Journal of Agricultural Research 55:895-906. (Pubitemid 39275429)
46. Ponnamperuma FN. 1972. The chemistryof submergedsoil. Advances in Agronomy 24:29-96.
47. R Development Core Team. 2012. R: A language and environment for statistical computing. Vienna, Austria: R Foundation for Statistical Computing, ISBN 3-900051-07-0, http://www.R-project.org/ (8 ctober 2013).
48. Rao IM, Roca WM, Ayarza MA, Tabares E, Garcia R. 1992. Somaclonal variation in plant adaptation to acid soil in the tropical forage legume Stylosanthes guianensis. Plant and Soil 146: 21-30.
49. Rincon J, Cardoso JA, Miles JW, Rao IM. 2010. Evaluation of Brachiaria humidicola germplasm accessions for tolerance to waterlogging. Tropical Forages Annual Report. Cali: CIAT, 25-30.
50. Ryser P, Gill HK, Byrne CJ. 2011. Constraints of root response to waterlogging in Alisma triviale. Plant and Soil 343:247-260.
51. Setter TL,Waters I. 2003.Review of prospects forgermplasm improvement for waterlogging tolerance in wheat, barley and oats. Plant and Soil 253:1-34. (Pubitemid 36901075)
52. Silva AS, Laura VA, Fernandes V, Jank L, Valle do CB, Neto MMG. 2007. Biomassa seca de raiz e da parte aerea de cultivares de Brachiaria brizanthaedeB. humidicola alagadas e nao alagadas. Revista Brasileria de Biociencias 5:123-125.
53. Smirnoff N, Crawford RMM. 1983. Variation in the structure and response to flooding of root aerenchyma in some wetland plants. Annals of Botany 51:237-249. (Pubitemid 14270922)
54. Solaiman Z, Colmer TD, Loss SP, Thomson BD, Siddique KHM. 2007. Growth responses of cool-season grain legumes to transient waterlogging. Australian Journal of Agricultural Research 58: 406-412. (Pubitemid 46751593)
55. Sorrell BK, Briz H, Boon PI. 1994. Modelling of in situ oxygen transport and aerobic metabolism in the hydrophyte Eleocharis sphacelata R. Br. Proceedings of the Royal Society of Edinburgh 102B:367-372.
56. Sorrell BK, Mendelssohn IA,McKee KL,Woods RA. 2000. Ecophysiology of wetland plant roots: a modelling comparison in aeration in relation to species distribution. Annals of Botany 86:675-685.
57. Steffens B, Geske T, Sauter M. 2011. Aerenchyma formation in the rice stem and its promotion by H2O2. New Phytologist 190:369-378.
58. Striker GG. 2012. Time is on our side: the importance of considering a recovery period when assessing flooding tolerance in plants. Ecological Research 27:983-987.
59. Thomson CJ, Colmer TD, Watkin ELJ. 1992. Tolerance of wheat (Triticum aestivum cvs. Gamenya and Kite) and triticale (Triticosecale cv. Muir) to waterlogging. New Phytologist 120:335-344.
60. Valle CB,Glienke C. 1991.Newsexual accession in Brachiaria. Apomixis Newsletter 7:42-43.
61. Valle CB, Pagliarini MS. 2009. Biology, cytogenetics, and breeding of Brachiaria. In: Sing RJ, ed. Genetic resources, chromosome engineering and crop improvement: forage crops, volume 5. Boca Raton: CRC Press, 103-151.
62. Vartapetian B, Jackson MB. 1997. Plant adaptations to anaerobic stress. Annals of Botany 79(Suppl. A):3-20.
63. Visser EJW, Blom CWPM, Voesenek LACJ. 1996. Flooding-induced adventitious rooting in Rumex: morphology and development in an ecological perspective. Acta Botanica Neerlandica 45:17-28.
64. Visser EJW, Nabeen RHM, Blom CWPM, Voesenek LACJ. 1997. Elongation by primary lateral roots and adventitious roots during conditions of hypoxia and high ethylene concentrations. Plant, Cell and Environment 20:647-653. (Pubitemid 27206962)
65. Visser EJW, Colmer TD, Blom CWPM, Voesenek LACJ. 2000. Changes in growth, porosity,and radial oxygen loss fromadventitious roots of selected mono- and dicotyledoneous wetland species with contrasting types of aerenchyma. Plant, Cell and Environment 23: 1237-1245.
66. Zhou M. 2010. Improvement of waterlogging tolerance. In: Mancuso S, Shabala S, eds.Waterlogging signalling and tolerance in plants. Heidelberg: Springer, 267-285.