Register      Login
Soil Research Soil Research Society
Soil, land care and environmental research
RESEARCH ARTICLE

Rice growth and post-rice mungbean in relation to two puddling intensities under glasshouse conditions

G. Kirchhof A B and H. B. So A
+ Author Affiliations
- Author Affiliations

A The University of Queensland, School of Land and Food Sciences, Brisbane, Qld 4072, Australia.

B Corresponding author. Email:g.kirchhof1@uq.edu.au

Australian Journal of Soil Research 43(5) 623-628 https://doi.org/10.1071/SR04067
Submitted: 17 May 2004  Accepted: 24 March 2005   Published: 8 August 2005

Abstract

The effect of soil puddling on growth of lowland rice (Oryza sativa) and post-rice mungbean (Vigna radiata) was investigated using mini rice beds under controlled glasshouse conditions. Each mini rice bed was approximately 1 m3in size. Three different soil types were used: a well-drained, permeable loam; a hardsetting, structurally unstable silty loam; and a medium clay. Rice yields were reduced by low puddling compared with high puddling intensity on the loam but not affected on the heavier textured soils (silty loam and clay). Yield of mungbean was reduced on highly puddle, structurally unstable soil, indicating that puddling should be reduced on structurally unstable soils. Under glasshouse condition where crop establishment was not a limiting factor and plant available water in 0.65 m of soil was 100 mm, mungbean yields of >1 t/ha were achieved. However, under conditions where subsoil water reserves were depleted for the production of vegetative biomass during initial optimal growing condition, grain yield remained well below 1 t/ha.

Additional keywords: rice, mungbean, tillage, soil puddling, soil structure, dryland.


Acknowledgments

This project was funded by the Australian Centre for International Agricultural Research (ACIAR) as part of a study on management strategies to improve dry season crop yields after rice.


References


Cook SMF, Gupta SC, Woodhead T, Larson WE (1995) Soil physical constraints to establishment of mungbean (Vigna radiata L. Wilczek) in paddy rice (Oryza sativa L.) soils. Soil and Tillage Research 33, 47–64.
Crossref | GoogleScholarGoogle Scholar | open url image1

Hillel, D (1980). ‘Fundamentals of soil physics.’ (Academic Press: New York)

IRRI (1985) Tillage and management of soil physical conditions. Annual Report for 1984, International Rice Research Institute, Manila, Philippines.

IRRI (1986) Tillage and management of soil physical conditions. Annual Report for 1985, International Rice Research Institute, Manila, Philippines.

IRRI (1987) Cultivation of puddled soils for rainfed legumes. Annual Report for 1986, International Rice Research Institute, Manila, Philippines.

IRRI (1988) Tillage and management of soil physical conditions. Annual Report for 1987, International Rice Research Institute, Manila, Philippines.

IRRI (1993). ‘IRRI rice almanac 1993–1995.’ (International Rice Research Institute: Manila, Philippines)

IRRI (1994) Rainfed lowland rice ecosystems. Program Report for 1993, International Rice Research Institute, Manila, Philippines.

Jones RH, Molitoris BA (1984) A statistical method for determining the break point of two lines. Analytical Biochemistry 141, 287–290.
Crossref | GoogleScholarGoogle Scholar | PubMed | open url image1

Kirchhof G, So HB (2005) Soil puddling for rice production under glasshouse conditions—its quantification and effect on soil physical properties. Australian Journal of Soil Research 43, 617–622. open url image1

Ludlow MM (1982) Measurement of stomatal conductance and plant water status. ‘Techniques in bioproductivity and photosynthesis’ (Eds J Coombs, DO Hall) pp. 44–57. (Pergamon Press: Oxford, New York)

Pagliai M, Painuli DK (1988) The physical properties of paddy soils and their effect on postrice cultivation for upland crops. ‘Soil management for sustainable rice production in the tropics. Selected papers from the First International Symposium on Paddy Soil Fertility’. Chiang Mai, Thailand, 6–13 December 1988. Ibsram Monograph No. 2 (International Board for Soil Research and Management, 1991: Bangkok, Thailand)


Sharma PK, Bhagat RM (1993) Puddling and compaction effects on water permeability of texturally different soils. Journal of the Indian Society of Soil Science 41, 1–6. open url image1

So HB, Woodhead T (1987) Alleviation of soil physical limits to productivity of legumes in Asia. ‘Food legume improvement for Asian farming systems. Proceedings on an International Workshop’. Khon Kaen, Thailand, 1–5 September 1986. (Ed.  ES Wallis , DE Byth ) pp. 112–120.


Wopereis MCS (1993) Quantifying the impact of soil and climate variability on rainfed rice production. PhD thesis, Wageningen, The Netherlands.