Free access
Ann. For. Sci.
Volume 63, Number 8, December 2006
Page(s) 849 - 859
Published online 09 December 2006
References of  Ann. For. Sci. 63 (2006) 849-859
  1. Alaoui-Sossé B., Gérard B., Binet P., Toussaint M.-L., Badot P.-M., Influence of flooding on growth, nitrogen availability in soil, and nitrate reduction of young oak seedlings (Quercus robur L.), Ann. For. Sci. 62 (2005) 593-600 [EDP Sciences] [CrossRef].
  2. Alaoui-Sossé B., Ricaud S., Barnola P., Dizengremel P., Rhythmic growth and carbon allocation in Quercus robur. Sucrose metabolizing enzymes in leaves, Physiol. Plant. 96 (1996) 667-673 [CrossRef].
  3. Albrecht G., Biemelt S., A comparative study on carbohydrate reserves and ethanolic fermentation in the roots of two wetland and non-wetland species after commencement of hypoxia, Physiol. Plant. 104 (1998) 81-86 [CrossRef].
  4. Albrecht G., Mustroph A., Fox T.C., Sugar and fructan accumulation during metabolic adjustment between respiration and fermentation under low oxygen conditions in wheat roots, Physiol. Plant. 120 (2004) 93-105 [CrossRef] [PubMed].
  5. Armstrong J., Afreen-Zobayed F., Blyth S., Armstrong W., Phragmites australis: effects of shoot submergence on seedling growth and survival and radial oxygen loss from roots, Aquat. Bot. 64 (1999) 275-289 [CrossRef].
  6. Biemelt S., Keetman U., Albrecht G., Re-aeration following hypoxia or anoxia leads to activation of the antioxidative defense system in roots of wheat seedlings, Plant Physiol. 116 (1998) 651-658 [CrossRef] [PubMed].
  7. Bodénès C., Joandet S., Laigret F., Kremer A., Detection of genomic regions differentiating two closely related oak species Quercus petraea (Matt.) Liebl. and Quercus robur L., Heredity 78 (1997) 433-444 [CrossRef].
  8. Bouny J.M., Saglio P.H., Glycolytic flux and hexokinase activities in anoxic maize root tips acclimated by hypoxic pretreatment, Plant Physiol. 111 (1996) 187-194 [PubMed].
  9. Bradford M.M., A rapid and sensitive method for quantification of microgram quantities of protein utilizing the principe of protein-dye binding, Anal. Biochem. 72 (1976) 124-134 [CrossRef].
  10. Bréda N., Cochard H., Dreyer E., Granier A., Water transfer in a mature oak stand (Quercus petraea): seasonal evolution and effects of a severe drought, Can. J. For. Res. 23 (1992) 1136-1143.
  11. Bréda N., Cochard H., Dreyer E., Granier A., Field comparison, stomatal conductance and vulnerability to cavitation of Quercus petraea and Quercus robur under water stress, Ann. Sci. For. 50 (1993) 571-582.
  12. Chang S., Puryear J., Cairney J., A simple and efficient method for isolating RNA from pine trees, Plant Mol. Biol. Rep. 11 (1993) 113-116.
  13. Chow P.S., Landhäusser S.M., A method for routine measurements of sugar and starch content in woody plant tissues, Tree Physiol. 24 (2004) 1129-1136 [PubMed].
  14. Cochard H., Bréda N., Granier A., Aussenac G., Vulnerability to air embolism of three European oak species (Quercus petraea (Matt.) Liebl., Q. pubescens Willd, Q. robur L., Ann. Sci. For. 49 (1992) 225-233.
  15. Colin-Belgrand M., Dreyer E., Biron P., Sensitivity of seedlings from different oak species to waterlogging: effects on root growth and mineral nutrition, Ann. Sci. For. 48 (1991) 193-204.
  16. Dat J.F., Capelli N., Folzer H., Bourgeade P., Badot P.-M., Sensing and signalling during plant flooding, Plant Physiol. Biochem. 42 (2004) 273-282 [CrossRef] [PubMed].
  17. Davies D.D., Grego S., Kenworthy P., The control of the production of lactate and ethanol by higher plants, Planta 118 (1974) 297-31 [CrossRef].
  18. Del Hierro A.M., Kronberger W., Hietz P., Offenthaler I., Richter H., A new method to determine the oxygen concentration inside the sapwood of trees, J. Exp. Bot. 53 (2002) 559-563 [CrossRef] [PubMed].
  19. Dolferus R., Ellis M., Bruxelles G.D., Trevaskis B., Hoeren F., Dennis E.S., Peacock W.J., Strategies of gene action in Arabidopsis during hypoxia, Ann. Bot. London 79 (1997) 21-31.
  20. Drew M.C., Oxygen deficiency and root metabolism: injury and acclimation under hypoxia and anoxia, Annu. Rev. Plant Phys. Plant Mol. Biol. 48 (1997) 223-250.
  21. Drew M.C., He C.J., Morgan P.W., Programmed cell death and aerenchyma formation in roots, Trends Plant Sci. 5 (2000) 123-127 [CrossRef] [PubMed].
  22. Dreyer E., Compared sensitivity of seedlings from 3 woody species (Quercus robur L., Quercus rubra L. and Fagus silvatica L.) to water-logging and associated root hypoxia: effects on water relations and photosynthesis, Ann. Sci. For. 51 (1994) 417-429.
  23. Dreyer E., Colin-Belgrand M., Biron P., Photosynthesis and shoot water status of seedlings from different oak species submitted to water-logging, Ann. Sci. For. 48 (1991) 205-214.
  24. Dubey H., Grover A., Respiratory pathway enzymes are differentially altered in flood tolerant and sensitive rice types during O2 deprivation stress and post- stress recovery phase, Plant Sci. 164 (2003) 815-821 [CrossRef].
  25. Dupouey J.-L., Badeau V., Morphological variability of oaks (Quercus robur L., Quercus petraea (Matt.) Liebl., Quercus pubsecens Willd) in North-East of France. Preliminary results, Ann. Sci. For. 50 (1993) 35-40.
  26. Evans D.E., Aerenchyma formation, New Phytol. 161 (2003) 35-49 [CrossRef].
  27. Gansert D., Xylem sap flow as a major pathway for oxygen supply to the sapwood of birch (Betula pubescens Ehr.), Plant Cell Environ. 26 (2003) 1803-1814 [CrossRef].
  28. Gansert D., Burgdorf M., Lösch R., A novel approach to the in situ measurement of oxygen concentrations in the sapwood of woody plants, Plant Cell Environ. 24 (2001) 1055-1064 [CrossRef].
  29. Germain V., Ricard B., Raymond P., Saglio P.H., The role of sugars, hexokinase, and sucrose synthase in the determination of hypoxically induced tolerance to anoxia in tomato roots, Plant Physiol. 114 (1997) 167-175 [PubMed].
  30. Gravatt D.A., Kirby C.J., Patterns of photosynthesis and starch allocation in seedlings of four bottomland hardwood tree species subjected to flooding, Tree Physiol. 18 (1998) 411-417 [PubMed].
  31. Groh B., Hubner C., Lendzian K.J., Water and oxygen permeance of phellems isolated from trees: the role of waxes and lenticels, Planta 215 (2002) 794-801 [CrossRef] [PubMed].
  32. He C., Morgan W.P., Drew M.C., Transduction of an ethylene signal is required for cell death and lysis in the root cortex of maize during aerenchyma formation induced by hypoxia, Plant Physiol. 112 (1996) 463-472 [PubMed].
  33. Igamberdiev A.U., Hill R.D., Nitrate, NO and haemoglobin in plant adaptation to hypoxia: an alternative to classic fermentation pathways, J. Exp. Bot. 55 (2004) 2473-2482 [CrossRef] [PubMed].
  34. Islam M.A., McDonald S.E., Zwiazek J.J., Responses of black spruce (Picea mariana) and tamarack (Larix laricina) to flooding and ethylene, Tree Physiol. 23 (2003) 545-552 [PubMed].
  35. Jackson M.B., Armstrong W., Formation of aerenchyma and the processes of plant ventilation in relation to soil flooding and submergence, Plant Biol. 1 (1999) 274-287.
  36. Kimmerer T.W., Alcohol dehydrogenase and pyruvate decarboxylase in leaves and roots of eastern cottonwood (Populus deltoides Batr.) and soybean (Glycine max L.), Plant Physiol. 84 (1987) 1210-1213 [PubMed].
  37. Klok E.J., Wilson I.W., Wilson D., Chapman S.C., Ewing R.M., Somerville S.C., Peacock W.J., Dolferus R., Dennis E.S., Expression profile analysis of the low-oxygen response in Arabidopsis root cultures, Plant Cell 14 (2002) 2481-2494 [CrossRef] [PubMed].
  38. Koch K.E., Ying Z., Wu Y., Avigne W.T., Multiple paths of sugar-sensing and a sugar/oxygen overlap for genes of sucrose and ethanol metabolism, J. Exp. Bot. 51 (2000) 417-427 [CrossRef] [PubMed].
  39. Kozlowski T.T., Soil aeration, flooding, and tree growth, J. Arbo. 11 (1985) 85-96.
  40. Kozlowski T.T., Physiological ecology of natural regeneration of harvested and disturbed forest stands: implications for forest management, For. Ecol. Manage. 158 (2002) 195-221 [CrossRef].
  41. Kozlowski T.T., Pallardy S.G., Growth control in woody plants, Berkeley, 1997.
  42. Kremer A., Dupouey J.L., Deans J.D., Cottrell J., Csaikl U., Finkeldey R., Espinel S., Jensen J., Kleinschmit J., Vandam B., Ducousso A., Forrest I., Deheredia U.L., Lowe A.J., Tutkova M., Munro R.C., Steinhoff S., Badeau V., Leaf morphological differentiation between Quercus robur and Quercus petraea is stable across western European mixed oak stands, Ann. Sci. For. 59 (2002) 777-787.
  43. Kreuzwieser J., Papadopoulou E., Rennenberg H., Interaction of flooding with carbon metabolism of forest trees, Plant Biol. 6 (2004) 299-306 [CrossRef].
  44. Lévy G., Becker M., Duhamel D., A comparison of the ecology of pedunculate and sessile oaks: radial growth in the centre and northwest of France, For. Ecol. Manage. 55 (1992) 51-63 [CrossRef].
  45. Liu F., Van Toai T., Moy L.P., Bock G., Linford L.D., Quackenbush J., Global transcription profiling reveals comprehensive insights into hypoxic response in Arabidopsis, Plant Physiol. 137 (2005) 115-1129.
  46. Mancuso S., Marras A.M., Different pathways of the oxygen supply in the sapwood of young Olea europaea trees, Planta 216 (2003) 1028-1033 [PubMed].
  47. Mariette S., Cottrell J., Csaikl U.M., Goikoechea P., Konig A., Lowe A.J., Van Dam B.C., Barreneche T., Bodenes C., Streiff R., Burg K., Groppe K., Munro R.C., Tabbener H., Kremer A., Comparison of levels of genetic diversity detected with AFLP and microsatellite markers within and among mixed Q. petraea (Matt.) Liebl. and Q. robur L. stands, Silvae Genet. 51 (2002) 72-79.
  48. McDonnald M.P., Galwey N.W., Colmer T.D., Water-logging 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 Environ. 24 (2001) 585-596 [CrossRef].
  49. McDonnald M.P., Galwey N.W., Colmer T.D., Similarity and diversity in adventitious root anatomy as related to root aeration among a range of wetland and dryland grass species, Plant Cell Environ. 25 (2002) 441-451 [CrossRef].
  50. Muir G., Fleming C.C., Schlötterer C., Species status of hybridizing oaks, Nature 405 (2000) 1016 [CrossRef] [PubMed].
  51. Ricard B., Van Toai T., Chourey P., Saglio P., Evidence for the critical role of sucrose synthase for anoxic tolerance of maize roots using a double mutant, Plant Physiol. 116 (1998) 1323-1331 [CrossRef] [PubMed].
  52. Saglio P., Germain V., Ricard B., The response of plants to oxygen deprivation: role of enzyme induction in the improvement of tolerance to anoxia, in: Lernèr H.R., Dekker M. (Eds.), Plant response to environmental stresses, from phytohormones to genome organisation, Inc., New-York, Basel, 1999, pp. 373-393.
  53. Schmull M., Thomas F.M., Morphological and physiological reactions of young deciduous trees (Quercus robur L., Q. petraea [Matt.] Liebl., Fagus sylvatica L.) to water-logging, Plant Soil 225 (2000) 227-242 [CrossRef].
  54. Sigaud P., Ne parlons plus du chêne mais des chênes, Rev. for. fr. 38 (1987) 376-384.
  55. Tadege M., Brändle R., Kuhlemeier C., Anoxia tolerance in tobacco roots: effect of over-expression of pyruvate decarboxylase, Plant J. 14 (1998) 327-335 [CrossRef].
  56. Tang Z.C., Kozlowski T.T., Some physiological and morphological responses of Quercus macrocarpa seedlings to flooding, Can. J. For. Res. 12 (1982) 196-202.
  57. Thellin O., Zorzi W., Lakaye B., De Borman B., Coumans B., Hennen G., Grisar T., Igout A., Heinen E., Housekeeping genes as internal standards: use and limits, J. Biotech. 75 (1999) 291-295 [CrossRef].
  58. Van Dongen J., Schurr U., Pfister M., Geigenberger P., Phloem metabolism and function have to cope with low internal oxygen, Plant Physiol. 131 (2003) 1529-1543 [CrossRef] [PubMed].
  59. Van Dongen J.T., Roeb G.W., Dautzenberg M., Froehlich A., Vigeolas H., Minchin P.E.H., Geigenberger P., Phloem import and storage metabolism are highly coordinated by the low oxygen concentrations within developing wheat seeds, Plant Physiol. 135 (2004) 1809-1821 [CrossRef] [PubMed].
  60. Wagner P.A., Dreyer E., Interactive effects of water-logging and irradiance on the photosynthetic performance of seedlings from three oak species displaying different sensitivities (Quercus robur, Q. petraea and Q. rubra), Ann. Sci. For. 54 (1997) 409-429.
  61. Zeng Y., Wu Y., Avigne W.T., Koch K.E., Differential regulation of sugar-sensitive sucrose synthases by hypoxia and anoxia indicate complementary transcriptional and posttranscriptional responses, Plant Physiol. 116 (1998) 1573-1583 [CrossRef] [PubMed].
  62. Zervoudakis G., Georgiou C.D., Mavroidis M., Kokolakis G., Angelopoulos K., Characterization of purified leaf cytosolic pyruvate kinase from the C-4 plant Cynodon dactylon, Physiol. Plant. 101 (1997) 563-569 [CrossRef].