Hostname: page-component-586b7cd67f-2plfb Total loading time: 0 Render date: 2024-11-28T00:12:09.793Z Has data issue: false hasContentIssue false
  • English
  • Français

Productivity is negatively related to shoot growth acrossfive mango cultivars in the seasonally wet-dry tropics of northernAustralia

Published online by Cambridge University Press:  17 June 2013

Ping Lu ,
Elias K. Chacko ,
Sean L. Bithell ,
Heinz Schaper ,
Josef Wiebel ,
Steve Cole  and
Warren J. Müller
Ping Lu*
Affiliation:
CSIRO Plant Ind., PMB 44, Winnellie, Darwin, NT 0822 Australia Present address: Energy Res. Aust. Ltd., GPO Box 2394, Darwin 0800, North. Territ., Australia. + [email protected]
Elias K. Chacko
Affiliation:
CSIRO Plant Ind., PMB 44, Winnellie, Darwin, NT 0822 Australia
Sean L. Bithell
Affiliation:
Plant Ind., Dep. Prim. Ind. Fish., North. Territ. Gov., GPO Box 3000, Darwin, NT 0801, Australia
Heinz Schaper
Affiliation:
CSIRO Plant Ind., PMB 44, Winnellie, Darwin, NT 0822 Australia Present address: YARA GmbH & Co, KG Hanninghof 35 D-48249 Dülmen Germany
Josef Wiebel
Affiliation:
CSIRO Plant Ind., PMB 44, Winnellie, Darwin, NT 0822 Australia Present address: K+S KALI GmbH, Bertha-von-Suttner-Straße 7, 34131 Kassel, Germany
Steve Cole
Affiliation:
CSIRO Plant Ind., PMB 44, Winnellie, Darwin, NT 0822 Australia Present address: Navy Strateg. Command, R1-4-B160 Russell Off. Canberra ACT Australia
Warren J. Müller
Affiliation:
CSIRO Math. Inform. Stat., GPO Box 664, Canberra ACT, 2601, Australia
*
* Correspondence and reprints
Get access

Abstract

Introduction. Mango productivityis low in seasonally wet-dry tropical areas where breeding programsrequire information on factors affecting productivity of mango cultivars.Specifically, our study tested a novel hypothesis that, among Australian-and Florida-bred cultivars, the greater growth of vegetatively vigorouscultivars would contribute to lower levels of fruit production in comparisonwith less vegetatively vigorous cultivars, in a wet-dry tropical environment. Materials and methods. A field experiment was conductedon trees of the cultivars ‘Kensington Pride’ and ‘Strawberry’, both polyembryoniccultivars, and ‘Haden’, ‘Irwin’ and ‘Tommy Atkins’, all monoembryoniccultivars. Results. Shoot growth was recorded overtwo years; in both years the polyembryonic cultivars produced morenew shoot length than the monoembryonic cultivars; ‘Irwin’ was theleast vigorous cultivar in both years. Across cultivars, there wasa negative relationship between normalised (by flowering intensity andcanopy area) fruit number or yield and vegetative vigour as representedby new shoot length. Conclusion. The results supportedthe hypothesis that the greater shoot growth of vegetatively vigorouscultivars contributed to lower levels of fruit production in comparisonwith less vegetatively vigorous cultivars in a tropical environment.This is the first study which demonstrates that the extent of seasonalshoot growth had a fruit production cost for mango.

Keywords

AustraliaMangifera indicayieldsvigourvariety trialspolyembryonymonoembryonyAustralieMangifera indicarendementvigueuressai de variétépolyembryoniemonoembryonieAustraliaMangifera indicarendimientovigorayos de variedadespoliembrioniamonoembrionia
Type
Original article
Information
Fruits , Volume 68 , Issue 4 , July 2013 , pp. 279 - 289
Copyright
© 2013 Cirad/EDP Sciences

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

Davenport T.L., Reproductive physiology, in: Litz R.E. (Ed.), The mango, CAB Int., Wallingford, U.K., 2009.
Spreer, W., Ongprasert, S., Hegele, M., Wunsche, J.N., Muller, J., Yield and fruit development in mango (Mangifera indica L. cv. Chok Anan) under different irrigation regimes, Agric. Water Man. 96 (2009) 574584.CrossRefGoogle Scholar
Anon, Year Book Australia 2009–10, Aust. Bureau Stat. Canberra, Aust., 2009.
Leonardi, J., Blaikie, S.J., Muller, W.J., Scott, N.S., Chacko, E.K., Effect of cincturing and chemical treatments on growth, flowering and yield of mango (Mangifera indica L.) cv. Kensington Pride, Aust. J. Exp. Agric. 39 (1999) 761770.CrossRefGoogle Scholar
Bally, I.S.E., Harris, M.A., Foster, S., Yield comparisons and cropping patterns of Kensington Pride mango selections, Aust. J. Exp. Agric. 42 (2002) 10091015.CrossRefGoogle Scholar
Crane J.H., Bally I., Mosqueda-Vaquez R.V., Tomer E., Crop production, in: Litz R.E. (Ed.), The mango, CAB Int., Wallingford, U.K., 1997.
Lu, P., Chacko, E., Effect of water stress on mango flowering in low latitude tropics of Northern Australia, Acta Hortic. 509 (2000) 283289.CrossRefGoogle Scholar
Iyer, C.P.A., Dinesh, M.R., Advances in classical breeding and genetics in mango, Acta Hortic. 455 (1997) 252267.CrossRefGoogle Scholar
Scholefield, P.B., Oag, D.R., Sedgley, M., The relationship between vegetative and reproductive development in the mango in Northern Australia, Aust. J. Agric. Res. 37 (1986) 425433.CrossRefGoogle Scholar
Gonzalez, A., Blaikie, S.J., Seasonal variation of carbon assimilation in mango (cv. Kensington Pride): effect of flowering treatments, Aust. J. Agric. Res. 54 (2003) 309321.CrossRefGoogle Scholar
Lu, P., Chacko, E.K., Bithell, S.L., Schaper, H., Wiebel, J., Cole, S., Müller, W.J., Photosynthesis and stomatal conductance of five mango cultivars in the seasonally wet-dry tropics of northern Australia, Sci. Hortic. 138 (2012) 108119.CrossRefGoogle Scholar
Davie, S.J., Stassen, P.J.C., Grove, H.G., Starch reserves in the mango tree, Acta Hortic. 509 (2000) 335346.CrossRefGoogle Scholar
Chacko, E.K., Reddy, Y.T.N., Ananthanarayanan, T.V., Studies on the relationship between leaf number and area and fruit-development in mango (Mangifera indica L.), J. Hortic. Sci. 57 (1982) 483492.CrossRefGoogle Scholar
McFadyen, L.M., Robertson, D., Sedgley, M., Kristiansen, P., Olesen, T., Post-pruning shoot growth increases fruit abscission and reduces stem carbohydrates and yield in macadamia, Ann. Bot. 107 (2011) 9931001.CrossRefGoogle ScholarPubMed
Kurian, R.M., Iyer, C.P.A., Contribution of morphological growth components towards canopy development in mango (Mangifera indica L.), Gartenbauwiss. 62 (1997) 202206.Google Scholar
Ngo H., Owens G., The profitability of mango production in the Top End, Dep. Prim. Ind. Fish., North. Territ. Gov., Tech. Bull. 301, Aust., 2002.
Williams J., Day K.J., Isbell R.F., Reddy S.J., Soils and climate, in: Muchow R.C. (Ed.), Agro-research for the semi-arid tropics: North-West Australia, Univ. Qld. Press, St Lucia, Aust., 1985.
Beal, P.R., Screening of mango varieties at Bowen, Queensland, Qld. J. Agric. Anim. Sci. 38 (1981) 7185.Google Scholar
Souza, M.P., de Queiroz, M.A., de Possidio, E.L. de, Pereira, F.A., Nunes, R.F.D., Study of flowering and alternate bearing of mango varieties in the Sao Francisco valley, Acta Hortic. 645 (2004) 353358.CrossRefGoogle Scholar
Scholefield P.B., Baker I.W., Alexander D.M., Flowering, maturity time, production and fruit characteristics of mango cultivars in the Northern Territory, Proc. 1st Aust. Mango Res. Workshop, CSIRO (Melbourne), Cairns, Qsl., Aust., 1984.
Whiley, A.W., Rasmussen, T.S., Saranah, J.B., Wolstenholme, B.N., Effect of temperature on growth, dry-matter production and starch accumulation in 10 mango (Mangifera indica L.) cultivars, J. Hortic. Sci. 64 (1989) 753765.CrossRefGoogle Scholar
Mukherjee S.K., Litz R.E., Botany and importance, in: Litz R.E. (Ed.), The mango – Botany, production and uses, CABI, Wallingford, U.K., 2009.
Scholefield P.B., Oag D.R., Flowering and fruit set of six cultivars of mango, Proc. 1st Aust. Mango Res. Workshop, CSIRO (Melbourne), Cairns, Qsl., Aust., 1984.
Shaban, A.E.A., Vegetative growth cycles of some mango cultivars in relation to flowering and fruiting, World J. Agric. Sci. 5 (2009) 751759.Google Scholar
Durán Zuazo, V.H.D., Pleguezuelo, C.R.R., Tarifa, D.F., Impact of sustained-deficit irrigation on tree growth, mineral nutrition, fruit yield and quality of mango in Spain, Fruits 66 (2011) 257268.CrossRefGoogle Scholar
Monselise, S.P., Goldschmidt, E.E., Alternate bearing in fruit trees: A review, Hortic. Rev. 4 (1982) 128173.Google Scholar
Hardner, C.M., Bally, I.S.E., Wright, C.L., Prediction of breeding values for average fruit weight in mango using a multivariate individual mixed model, Euphytica 186 (2012) 463477.CrossRefGoogle Scholar
Bally I.S.E., Lu P., Johnson P.R., Mango breeding, in: Jain S.M., Priyadarshan P.M. (Eds.), Breeding plantation tree crops: Tropical species, Springer, N.Y., U.S.A., 2009.