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Mycorrhiza water relations bibliography
Listing last updated: November 16, 2009 This bibliography also contains salt stress papers.
aboul-Nasr A (1998) Effects of inoculation with Glomus intraradices on growth, nutrient uptake and metabolic activities of squash plants under drought stress conditions. Ann Agric Sci Cairo 1:119--133.
Acosta-Avalos D, Alvarado-Gil JJ, Vargas H, Frias-Hernandez J, Olalde-Portugal V, Miranda LCM. 1996.
Photoacoustic monitoring of the influence of arbuscular mycorrhizal infection on the photosynthesis of corn (Zea mays
L.). Plant Science Limerick. 119: 183-190.
Aguilera-Gomez L, Davies FT, Olalde-Portugal V, Duray SA, Phavaphutanon L. 1999. Influence of phosphorus and endomycorrhiza (Glomus intraradices) on gas exchange and plant growth of chile ancho pepper (Capsicum annuum L. cv. San Luis). Photosynthetica 36: 441-449.
Al-Agely AK, Reeves FB. 1995. Inland sand dune mycorrhizae: effects of soil depth,
moisture, and pH on colonization of Oryzopsis hymenoides.
Mycologia. 87:54-60.
Alguacil M, Caravaca F, Diaz-Vivancos P, Hernandez JA, Roldan A. 2006. Effect of arbuscular mycorrhizae and induced drought stress on antioxidant enzyme and nitrate reductase activities in Juniperus oxycedrus L. grown in a composted sewage sludge-amended semi-arid soil. PLANT AND SOIL 279: 209-218
Aliasgharzad N, Bolandnazar SA, Neyshabouri MR, Chaparzadeh N. 2009. Impact of soil sterilization and irrigation intervals on P and K acquisition by mycorrhizal onion (Allium cepa). BIOLOGIA 64: 512-515. Al-Karaki GN. 2006. Nursery inoculation of tomato with arbuscular mycorrhizal fungi and subsequent performance under irrigation with saline water. SCIENTIA HORTICULTURAE 109: 1-7.
Al-Karaki GN. 2000. Growth of mycorrhizal tomato and mineral acquisition under salt stress.
Mycorrhiza 10: 51-54
Al-Karaki GN. 1998. Benefit, cost and water-use efficiency of
arbuscular mycorrhizal durum wheat grown under drought stress.
Mycorrhiza 8: 41-45
Al-Karaki GN, Clark RB. 1999. Varied rates of mycorrhizal inoculum on growth and nutrient acquisition by barley grown with drought stress. Journal of Plant Nutrition 22:1775-1784.
Al-Karaki GN, Clark RB. 1998. Growth, mineral acquisition, and water use by
mycorrhizal wheat grown under water stress. Journal of Plant Nutrition 21: 263-276.
Al-Karaki GN, AlRaddad A, Clark RB. 1998. Water stress and mycorrhizal isolate effects on growth and nutrient acquisition of wheat. J. Plant Nutr. 21: 891-902.
Al-Karaki GN, Al-Raddad A. 1997. Effects of arbuscular mycorrhizal fungi and drought stress
on growth and nutrient uptake of two wheat genotypes differing in drought resistance.
Mycorrhiza 7:83-88.
Al-Karaki GN, Al-Raddad A. 1997. Drought stress and VA mycorrhizal fungi effects on growth and nutrient
uptake of two wheat genotypes differing in drought resistance. Crop Research Hisar. 13(2): 245-257; 28 ref.
Al-Karaki GN; Hammad R. 2001. Mycorrhizal influence on fruit yield and mineral content of tomato grown under salt stress. JOURNAL OF PLANT NUTRITION. 24(8):1311-1323.
Al-Karaki GN; Hammad R; Rusan M. 2001. Response of two tomato cultivars differing in salt tolerance to inoculation with
mycorrhizal fungi under salt stress. MYCORRHIZA. 11(1):43-47.
Al-Karaki G, McMichael B, Zak J. 2004. Field response of wheat to arbuscular mycorrhizal fungi and drought stress.
MYCORRHIZA 14 (4): 263-269
Allaway WG, Ashford AE. 1996. Structure of hair roots in Lysinema ciliatum R. Br. and its
implications for their water relations. Annals of Botany (London) 77(4): 383-388.
Allen MF. 2009. Bidirectional water flows through the soil-fungal-plant mycorrhizal continuum. New Phytologist 182: 290-293 Allen MF. 2007. Mycorrhizal fungi: Highways for water and nutrients in arid soils. VADOSE ZONE JOURNAL 6: 291-297. Allen EB, Allen MF. 1984. Comparative water relations of VA mycorrhizal and nonmychorrhizal grasses on disturbed land. 1984 NACOM Proceedings, pp.93-95. Allen EB, Allen MF.
1986. Water relations of xeric grasses in the field: interactions of
mycorrhizas and competition. New Phytol. 104:559-571.
Allen EB, Cunningham GL. 1983. Effect of vesicular-arbuscular mycorrhizae on
Distichlis spicata under three salinity levels. New Phytol.
93:227-236.
Allen MF. 1982. Influence of
vesicular-arbuscular mycorrhizae on water movement through Bouteloua gracilis (H.B.K.)
Lag ex Steud. New Phytol. 91:191-196.
Allen MF, Boosalis MG. 1983.
Effects of two species of VA mycorrhizal fungi on drought tolerance of winter wheat. New
Phytol. 93:67-76.
Allen MF, Moore TS Jr,
Christensen M. 1980. Phytohormone changes in Bouteloua
gracilis infected by vesicular- arbuscular mycorrhizae. I. Cytokinin increases in the
host plant. Can J. Bot. 58:371-374.
Allen MF, Richards JH,
Busso CA. 1989. Influence of clipping and soil water status on
vesicular-arbuscular mycorrhizae of two semi-arid tussock grasses. Biol. Fertil. Soils. 8:
285-289.
Allen MF, Moore TS Jr,
Christensen M. 1982. Phytohormone changes in Bouteloua
gracilis infected by vesicular-arbuscular mycorrhizal fungi. II. Altered levels of
gibberellin-like substances and abscisic acid in the host plant. Can J. Bot.
60:468-471.
Allen MF, Smith WK,
Moore TS Jr, Christensen M. 1981. Comparative water relations and photosynthesis of
mycorrhizal and non-mycorrhizal Bouteloua gracilis H.B.K. New Phytol. 88: 683-693.
Alvarez M, Huygens D, Fernandez C, Gacitua Y, Olivares E, Saavedra I, Alberdi M, Valenzuela E. 2009. Amaya-Carpio L, Davies FT, Fox T, He C. 2009. Arbuscular mycorrhizal fungi and organic fertilizer influence photosynthesis, root phosphatase activity, nutrition, and growth of Ipomoea carnea ssp fistulosa. PHOTOSYNTHETICA 47: 1-10 Amerian, M.R.,Stewart,W.S., Griffiths, H. 2001. Effect of two species of arbuscular mycorrhizal fungi on growth, assimilation and leaf water relations in maize (Zea mays ). Aspects of Applied Biology 63: 73-76.
Anderson RC, Ebbers BC, Liberta AE. 1986. Soil moisture influences colonization
of prairie cordgrass (Spartina pectinata Lind.) by vesicular-arbuscular
mycorrhizal fungi. New Phytol. 102:523-527.
Anderson RC, Liberta AE, Dickman LA. 1984. Interaction of vascular plants and
vesicular-arbuscular mycorrhizal fungi across a soil moisture-nutrient gradient.
Oeologia. 64:111-117.
Andersen CP, Markhart AH, Dixon RK, Sucoff EI. 1988. Root hydraulic conductivity
of vesicular-arbuscular mycorrhizal green ash seedlings. New Phytol.
109:465-471.
Aroca R, Alguacil MD, Vernieri P, Ruiz-Lozano JM. 2008. Plant Responses to Drought Stress and Exogenous ABA Application are Modulated Differently by Mycorrhization in Tomato and an ABA-deficient Mutant (Sitiens). MICROBIAL ECOLOGY 56: 704-719. Aroca R, Bago A, Sutka M, Paz JA, Cano C, Amodeo G, Ruiz-Lozano JM. 2009. Expression Analysis of the First Arbuscular Mycorrhizal Fungi Aquaporin Described Reveals Concerted Gene Expression Between Salt-Stressed and Nonstressed Mycelium. MOLECULAR PLANT-MICROBE INTERACTIONS 22: 1169-1178. Aroca R, Porcel R, Ruiz-Lozano JM. 2007. How does arbuscular mycorrhizal symbiosis regulate root hydraulic properties and plasma membrane aquaporins in Phaseolus vulgaris under drought, cold or salinity stresses? NEW PHYTOLOGIST 173: 808-816. Aroca R, Vernieri P, Ruiz-Lozano JM. 2008. Mycorrhizal and non-mycorrhizal Lactuca sativa plants exhibit contrasting responses to exogenous ABA during drought stress and recovery. JOURNAL OF EXPERIMENTAL BOTANY 59: 2029-2041 Asghari HR. 2008. Vesicular-arbuscular (VA) mycorrhizae improve salinity tolerance in pre-inoculation subterranean clover (Trifolium subterraneum) seedlings. INTERNATIONAL JOURNAL OF PLANT PRODUCTION 2: 243-256. Augé RM. 2004. Arbuscular mycorrhizae and soil/plant water relations. Canadian Journal of Soil Science 84: 373-381. Augé RM. 2001. Water relations, drought and VA mycorrhizal symbiosis. Mycorrhiza 11:3-42.
Augé RM. 2000. Stomatal behavior of arbuscular mycorrhizal plants. In: Kapulnik Y, Douds DD (eds) Arbuscular Mycorrhizas: Physiology and Function, pp 201-237. Kluwer Academic Publishers, Dordrecht, the Netherlands. ISBN 0-7923-6444-9.
Augé RM. 1989. Do VA mycorrhizae enhance transpiration by affecting host phosphorus content? J. Plant Nutri. 12(6):743-753.
Augé RM, Duan X, Ebel RC, Stodola AJ. 1994.
Nonhydraulic signaling of soil drying in mycorrhizal maize. Planta. 193:74-82.
Augé RM, Duan X. 1991. Mycorrhizal fungi and nonhydraulic root signals of soil drying. Plant Physiol. 97:821-824.
Augé RM, Foster JG, Loescher WH, Stodola AJ. 1992. Symplastic molality of free amino acids and sugars in Rosa roots with regard to VA mycorrhizae and drought symbiosis. 12:1-17.
Augé RM, Kubikova E, Moore, JL. 2001. Foliar dehydration tolerance of mycorrhizal cowpea, soybean and bush bean. New Phytologist 151: 535-542.
Augé RM, Moore JL. 2005. Arbuscular mycorrhizal symbiosis and plant drought resistance. In: Mehrotra VS (ed.) Mycorrhiza: Role and Applications. Allied Publishers Limited, New Dehli. Augé RM, Moore JL, Cho K, Stutz JC, Sylvia DM, Al-Agely A, Saxton AM. 2003. Relating dehydration resistance of mycorrhizal Phaseolus vulgaris to soil and root colonization by hyphae. Journal of Plant Physiology 160: 1147-1156.
Augé RM, Moore JL, Sylvia DM, Cho K. 2004. Mycorrhizal promotion of host stomatal conductance in relation to irradiance and temperature. Mycorrhiza 14:
85-92. Augé RM, Schekel KA, Wample RL. 1986.
Greater leaf conductance of well-watered VA mycorrhizal rose plants is not related to phosphorus
nutrition. New Phytol. 103:107-116.
Augé RM, Schekel KA, Wample RL. 1987.
Leaf water and carbohydrate status of VA mycorrhizal rose exposed to drought stress. Plant Soil
99:291-302.
Augé RM, Schekel KA, Wample RL. 1986.
Osmotic adjustment in leaves of VA mycorrhizal nonmycorrhizal rose plants in response to drought stress. Plant Physiol. 82:765-770.
Augé RM, Schekel KA, Wample RL. 1987.
Rose leaf elasticity in response to mycorrhizal colonization and drought acclimation. Physiol. Plant. 70:175-182.
Augé RM, Stodola JW. 1990. Apparent increase in symplastic water contributes to greater turgor in mycorrhizal roots of
droughted Rosa plants. New Phytol. 115:285-295.
Augé RM, Stodola AJ, Brown MS, Bethlenfalvay
GJ. 1992. Stomatal response of mycorrhizal cowpea and soybean to short-term osmotic stress. New Phytol. 120:117-125.
Augé RM, Stodola AJ, Ebel RC, Duan XR. 1995. Leaf elongation and water relations of mycorrhizal sorghum in response to partial soil drying: two Glomus species at varying phosphorus fertilization. J. Exp. Bot. 46:297-307.
Augé RM, Stodola AJW, Tims JE, Saxton AM. 2001. Moisture retention properties of a mycorrhizal soil. Plant and Soil 230: 87-97.
Augé RM, Sylvia DM, Park SJ, Buttery BR, Saxton AM, Moore JL, Cho K. 2004. Partitioning mycorrhizal influence on water relations of Phaseolus vulgaris into soil and plant components. Canadian Journal of Botany 82: 503-514. Augé RM, Toler HD, Moore JL, Cho K, Saxton AM. 2007. Comparing contributions of soil versus root colonization to variations in stomatal behavior and soil drying in mycorrhizal Sorghum bicolor and Cucurbita pepo. Journal of Plant Physiology 164: 1289-1299. Augé RM, Toler HD, Sams CE, Nasim G. 2008. Hydraulic conductance and water potential gradients in squash leaves showing mycorrhiza-induced increases in stomatal conductance. Mycorrhiza 18: 115-121. Awotoye OO, Atayese MO, Osonubi O, Mulongoy K, Okali DUU. 1992. Response of some
tropical nitrogen-fixing woody legumes to drought and inoculation with mycorrhiza.
In: Biological Nitrogen Fixation and Sustainability of Tropical Agriculture, (K. Mulongoy,
M. Gueye, D.S.C. Spencer, eds.), pp. 67- . Wiley-Sayce Co-Publication.
Azcon R, Rodriguez R, Amora-Lazcano E, Ambrosano E. 2008. Uptake and metabolism of nitrate in mycorrhizal plants as affected by water availability and N concentration in soil. EUROPEAN JOURNAL OF SOIL SCIENCE 59: 131-138. Azcón R, Tobar RM. 1998. Activity of nitrate reductase and glutamine synthetase in shoot and root of mycorrhizal Allium cepa - Effect of drought stress. Plant Sci. 133: 1-8. Azcón R, F ElAtrash. 1997. Influence of arbuscular mycorrhizae and phosphorus
fertilization on growth, nodulation and N2 (N-15) in
Medicago sativa at four salinity levels. Biol. Fert. Soils 24:81-86.
Azcón R, Gómez M, Tobar R. 1996. Physiological and nutritional responses by
Lactuca sativa to nitrogen sources and mycorrhizal fungi under drought.
Biol. Fertil. Soils 22:156-161.
Azcón R., Gómez M., Tobar R. 1992. Effects of nitrogen source on growth, nutrition, photosynthetic rate and nitrogen metabolism of mycorrhizal and phosphorus-fertilized plants of Lactuca sativa L. New Phytol. Cambridge: Cambridge University Press. 121(2): 227-234. Azcón R, El Atrach F, Barea JM. 1988. Influence of mycorrhizal vs. soluble phosphate on growth,
nodulation, and N2 fixation (15N) in alfalfa under different levels of water potential.
Biology and Fertility of Soils. 1988, 7: 1, 28-31; 2 fig., 1 tab.; 22 ref.
Baker A, Sprent JI and Wilson J. 1995. Effects of sodium chloride and mycorrhizal
infection on the growth and nitrogen fixation of Prosopis juliflora.
Symbiosis 19:39-51.
Bandou, E; Lebailly, F; Muller, F; Dulormne, M; Toribio, A; Chabrol, J; Courtecuisse, R; Plenchette, C; Prin, Y; Duponnois, R; Thiao, M; Sylla, S; Dreyfus, B; Ba, AM. The ectomycorrhizal fungus Scleroderma bermudense alleviates salt stress in seagrape (Coccoloba uvifera L.) seedlings. MYCORRHIZA 16 (8): 559-565 Bannister P, Norton WM. 1974. The response of mycorrhizal and non-mycorrhizal rooted cuttings of
heather (Calluna vulgaris (L.) Hull) to variations in nutrient and water regimes. New Phytologist. 73(1): 81-89;
20 ref. Bayne HG, Brown MS, Bethlenfalvay GJ. 1984. Defoliation effects ion mycorrhizal colonization, nitrogen fixation and photosynthesis in the Glycine-Glomus-Rhizobium symbiosis. Physiol. Plant. 62:576-580. Bearden BN. 2001. Influence of arbuscular mycorrhizal fungi on soil structure and soil water characteristics of vertisols. PLANT AND SOIL 229(2):245-258.
Beauchamp VB, Walz C, Shafroth PB. 2009. Salinity tolerance and mycorrhizal responsiveness of native xeroriparian plants in semi-arid western USA. APPLIED SOIL ECOLOGY 43: 175-184. Ben Khaled L, Gomez AM, Ouarraqi EM, Oihabi A. 2003. Physiological and biochemical responses to salt stress of mycorrhized and/or nodulated clover seedlings (Trifolium alexandrinum L.). AGRONOMIE
23: 571-580.
Benabdellah K, Ruiz-Lozano JM, Aroca R. 2009. Hydrogen peroxide effects on root hydraulic properties and plasma membrane aquaporin regulation in Phaseolus vulgaris. PLANT MOLECULAR BIOLOGY 70: 647-661. Bereau M, Bonal D, Louisanna E,
Garbaye J. 2005. Do mycorrhizas improve tropical tree seedling performance under water stress and low light conditions? A case study with Dicorynia guianensis (Caesalpiniaceae).
JOURNAL OF TROPICAL ECOLOGY 21: 375-381 .
Bethlenfalvay
GJ, Brown MS, Ames RN, Thomas RS. 1988. Effects of
drought on host and endophyte development in mycorrhizal soybeans in relation to
water use and phosphate uptake. Physiol Plant. 72:565-571.
Bethlenfalvay
GJ, Thomas RS, Dakessian S, Brown MS, Ames RN, Whitehead EE (ed.), Hutchinson CF (ed.), Timmermann BN ed.), Varady RGTI. 1988. Mycorrhizae in stressed environments: effects on plant growth, endophyte development, soil stability and soil water. Arid-lands: today and tomorrow. 1988, 1015-1029; 4 fig., 3 tab.; 77 ref.
Bethlenfalvay
GJ, Brown MS, Franson R. 1990.
Glycine-Glomus-Rhizobium symbiosis. X. Relationships between leaf gas
exchange and plant and soil water status in nodulated, mycorrhizal soybean under
drought stress. Plant Physiol. 94:723-728.
Bethlenfalvay
GJ, Brown MS, Mihara K,
Stafford AE. 1987. Glycine-Glomus- Rhizobium symbiosis. V. Effects
of mycorrhizae on nodule activity and transpiration in soybeans under drought stress.
Plant Physiol. 85:115-119.
Bhatia, NP; Adholeya, A; Sharma, A. 1998. Biomass production and changes in soil productivity during longterm cultivation of Prosopis juliflora (Swartz) DC inoculated with VA mycorrhiza and Rhizobium spp. in a semi-arid wasteland. Biol. Fertil. Soils 26(3): 208-214
Bildusas IJ, Dixon RK, Pfleger FL, Stewart EL. 1986. Growth, nutrition and gas
exchange of Bromus inermis inoculated with Glomus fasciculatum.
New Phytol. 102:303-311.
Bolandnazar S. 2009. The effect of mycorrhizal fungi on onion (Allium cepa L.) growth and yield under three irrigation intervals at field condition. JOURNAL OF FOOD AGRICULTURE & ENVIRONMENT 7: 360-362. Bolandnazar S, Aliasgarzad N, Neishabury MR, Chaparzadeh N. 2007. Mycorrhizal colonization improves onion (Allium cepa L.) yield and water use efficiency under water deficit condition. SCIENTIA HORTICULTURAE 114: 11-15. Bolgiano NC, Safir GR, Warnacke DD. 1983. Mycorrhizal infection and growth of
onion in the field in relation to phosphorus and water availability. J. Am. Soc.
Hort. Sci. 108:819-825.
Boomsma CR, Vyn TJ. 2008. Maize drought tolerance: Potential improvements through arbuscular mycorrhizal symbiosis?
FIELD CROPS RESEARCH 108: 14-31
Borkowska B. 2002. Growth and photosynthetic activity of micropropagated strawberry plants inoculated with endomycorrhizal fungi (AMF) and growing under drought stress. ACTA PHYSIOLOGIAE PLANTARUM. 24(4):365-370.
Bougher NL, Malajczuk N. 1990. Effects of high soil moisture on formation of ectomycorrhizas and
growth of karri (Eucalyptus diversicolor) seedlings inoculated with Descolea maculata, Pisolithus tinctorius and Laccaria
laccata. New Phytologist. 114(1): 87-91; 19 ref.
Boyle CD, Hellenbrand KE. 1991. Assessment of the effect of mycorrhizal fungi on
drought tolerance of conifer seedlings. Can J. Bot. 69:764-1771.
Braunberger PG, Abbott LK, Robson AD. 1996. Infectivity of arbuscular mycorrhizal
fungi after wetting and drying. New Phytol. 134:673-684.
Braunberger PG, Abbott LK, Robson AD. 1994. The effect of rain in the dry-season on the formation of vesicular-arbuscular mycorrhizas in the growing season of annual clover-based pastures. New phytol. Cambridge: Cambridge University Press. May 1994. 127(1): 107-114. Briccoli-Bati C, Rinaldi R, Tocci C, Sirianni T, Iannotta N, Lavee S ed.), Klein I. 1994. Influence of salty water irrigation on mycorrhizae of young olive trees in containers. Second international symposium on olive growing, Jerusalem, Israel, 6-10 Sep. 1993. Acta-Horticulturae. 356: 218-220; 11 ref.
Brown AM, Bledsoe C. 1996. Spatial and temporal dynamics of mycorrhizas in
Jaumea carnosa, a tidal saltmarsh halophyte. Journal of Ecology
84:703-715.
Brown MS, Bethlenfalvay
GJ. 1987. The Glycine-Glomus-Bradyrhizobium symbiosis. VI. Photosynthesis in
nodulated, mycorrhizal, or N- and P-fertilized soybean plants. Plant Physiol. 85: 120-123.
Brown MS, Thamsurakul S, Bethlenfalvay GJ. 1987. The
Glycine-Glomus-Bradyrhizobium symbiosis. VIII. Phosphorus-use efficiency of
CO2 and N2 fixation in mycorrhizal soybean. Physiol.
Plantarum 74:159-163.
Brownlee J, Duddridge AM, Read DJ. 1983. The structure and function of mycelial systems of
ectomycorrhizal roots with special reference to their role in forming inter-plant connections and
providing pathways for assimilate and water transport. Plant Soil 71:433-443.
Bryla DR, Duniway JM. 1998. The influence of the mycorrhiza Glmous etunicatum on drought acclimation in safflower and wheat. Physiologia Plantarum 104:87-96.
Bryla DR, Duniway JM. 1997. Effects of mycorrhizal infection on drought tolerance and
recovery in safflower and wheat. Plant and Soil 197: 95-103.
Bryla DR, Duniway JM. 1997. Growth, phosphorus uptake, and water relations of safflower
and wheat infected with an arbuscular mycorrhizal fungus. New Phytologist 136: 581-590.
Bryla DR, Duniway JM. 1997.
Water uptake by safflower and wheat roots infected with arbuscular mycorrhizal fungi.
New Phytologist 136: 591-601.
Busse MD, Ellis JR. 1985. Vesicular-arbuscular mycorrhizal (Glomus
fasciculatum) influence on soybean drought tolerance in high phosphorus soil.
Can. J. Bot. 63:2290-2294.
Caravaca F, Diaz E, Barea JM, Azcon-Aguilar C, Roldan A. 2003. Photosynthetic and transpiration rates of Olea europaea subsp sylvestris and Rhamnus lycioides as affected by water deficit and mycorrhiza. BIOLOGIA PLANTARUM 46: 637-639 2003
Caravaca F, Alguacil MM, Diaz G, Marin P, Roldan A. 2005. Nutrient acquisition and nitrate reductase activity of mycorrhizal Retama sphaerocarpa L. seedlings afforested in an amended semiarid soil under two water regimes. SOIL USE AND MANAGEMENT 21 (1): 10-16
Carretero CL, Cantos M, Garcia JL, Azcon R, Troncoso A. 2008. Arbuscular-mycorrhizal contributes to alleviation of salt damage in cassava clones. JOURNAL OF PLANT NUTRITION 31: 959-971. Cerligione LJ, Liberta AE, Anderson RC. 1988. Effects of soil moisture and soil sterilization on
vesicular-arbuscular mycorrhizal colonization and growth of little bluestem (Schizachyrium scoparium).
Canadian Journal of Botany. 66(4): 757-761; 31 ref.
Chen DM, Khalili1 K, Cairne JWG. 2003. Influence of water stress on biomass production by
isolates of an ericoid mycorrhizal endophyte of Woollsia pungens and Epacris microphylla (Ericaceae). Mycorrhiza 13: 173-176.
Charest
C, Dalpe Y and Brown A. 1993. The effect of vesicular-arbuscular
mycorrhizae and chilling on two hybrids of Zea mays L. Mycorrhiza 4:89-92.
Cho K, Toler HD, Lee J, Ownley BH, Jean C. Stutz JC, Moore JL, Augé RM. 2006. Mycorrhizal symbiosis and response of sorghum plants to combined drought and salinity stresses. Journal of Plant Physiology 163: 517-528.
Clapperton MJ, Reid DM. 1992. Effects of low-concentration sulphur dioxide fumigation and
vesicular-arbuscular mycorrhizas on 14C-partitioning in Phleum pratense L.
New Phytologist. 120(3): 381-387; 46 ref.
Coleman MD, Bledsoe CS, Smit BA. 1990. Root hydraulic conductivity and xylem
sap levels of zeatin riboside and abscisic acid in mycorrhizal Douglas fir
seedlings. New Phytol. 115:275-284.
Coleman MD, Bledsoe CS, Lopushinsky W. 1989. Pure culture response of ectomycorrhizal fungi to imposed water
stress. Canadian Journal of Botany. 67(1): 29-39; 19 ref.
Coleman MD, Brandle JR, Lovett WR, Thielges BA (ed.). 1983. Water relations of different mycorrhizal cottonwood clones.
Proceedings. Seventh North American Forest Biology Workshop, 'Physiology and Genetics of Intensive Culture', pp 335-340 Colla G, Rouphael Y, Cardarelli M, Tullio M, Rivera CM, Rea E. 2008. Alleviation of salt stress by arbuscular mycorrhizal in zucchini plants grown at low and high phosphorus concentration. BIOLOGY AND FERTILITY OF SOILS 44: 501-509 Coutts MP, Nicoll BC. 1990. Waterlogging tolerance of roots of Sitka spruce clones and of
strands from Thelephora terrestris mycorrhizas. Canadian Journal of Forest Research. 1990, 20: 12, 1894-1899;
22 ref.
Cruz AF, Ishii T, Kadoya K. 2000. Effects of arbuscular mycorrhizal fungi on tree growth, leaf water potential, and levels of 1-aminocyclopropane-1-carboxylic acid and ethylene in the roots of papaya under water-stress conditions. Mycorrhiza 10:121-123.
Cui M, Nobel PS. 1992. Nutrient status, water uptake and gas exchange for 3
desert succulents infected with mycorrhizal fungi. New Phytol. 122:643-649.
Dakessian S, MS, Brown MS, Bethlenfalvay
GJ. 1986. Relationship of mycorrhizal growth enhancement and plant growth with soil water
and texture. Plant Soil 94:439-443.
Danneberg G, Latus C, Zimmer W, Hundeshagen B, Schneider-Poetsch Hj, Bothe
H. 1992. Influence of vesicular-arbuscular mycorrhiza on phytohormone
balances in maize (Zea mays L.). J. Plant Physiol. 141:33-39.
Davies FT; Olalde-Portugal V; Aguilera-Gomez L; Alvarado MJ; Ferrera-Cerrato RC; Boutton TW. 2002. Alleviation of drought stress of Chile ancho pepper (Capsicum annuum L. cv. San Luis) with arbuscular mycorrhiza indigenous to Mexico. SCIENTIA HORTICULTURAE. 92: 347-359.
Davies FT, Potter J,
Linderman RG. 1993. Drought resistance of mycorrhizal pepper plants
independent of leaf P-concentration - response in gas exchange and water relations.
Physiol Plant. 87:45-53.
Davies FT, Potter JR,
Linderman RG. 1992. Mycorrhiza and repeated drought exposure affect drought
resistance and extraradical hyphae development of pepper plants independent of plant
size and nutrient content. J. Plant Physiol. 139:289-294.
Davies FT; Puryear JD; Newton RJ; Egilla JN; Grossi JAS. 2002. Mycorrhizal fungi increase chromium uptake by sunflower plants: Influence on tissue mineral concentration, growth, and gas exchange. JOURNAL OF PLANT NUTRITION 2002 25: 2389-2407.
Davies FT, Svenson SE, Henderson JC, Phavaphutanon L, Duray SA, OlaldePortugal V, Meier CE,
Bo SH. 1996. Non-nutritional stress acclimation of mycorrhizal woody plants exposed to
drought. Tree Physiol. 16:985-993.
Davies FT Jr., Castro Jimenez Y, Duray SA. 1987. Mycorrhizae, soil amendments, water relations and growth of Rosa
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