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Crop and Pasture Science Crop and Pasture Science Society
Plant sciences, sustainable farming systems and food quality
RESEARCH ARTICLE

Radiation interception, radiation use efficiency and growth of barley cultivars

PJ Goyne, SP Milroy, JM Lilley and JM Hare

Australian Journal of Agricultural Research 44(6) 1351 - 1366
Published: 1993

Abstract

Dry matter production and utilization of photosynthetically active radiation (PAR) was studied for barley (Hordeurn vulgare L.) in the field at Hermitage Research Station, Qld. In 1990, four cultivars (Gilbert, Tallon, Grimmett, Skiff) were sown at three times and grown with non-limiting soil moisture. In 1991, soil moisture limitations were imposed on one sowing of the cultivar Grimmett. The radiation extinction coefficient (k) was 0.41¦0.02 and did not vary with cultivar, time of sowing or soil moisture availability. Radiation use efficiency (RUE) (based on absorbed PAR and above-ground dry matter) did not change with time of sowing but did vary between cultivars. RUE was highest for Gilbert (2.90¦0.10 g MJ-1), while the other three cultivars averaged 2.60¦0.04 g MJ-l. RUE of Grimmett was significantly lower in 1991 (1.48¦0.07 g MJ-1) than in 1990 (2.60¦0.07g MJ-1), but soil moisture differences in 1991 did not significantly affect RUE. Several factors with possible links with RUE were examined and discussed. Of the variables examined those which showed the strongest relationships with RUE were average daily vapour pressure deficit and average daily minimum temperature.

Keywords: barley; photosynthetically active radiation; extinction coefficient; radiation use efficiency; leaf area index; biomass; carbon isotope discrimination; soil moisture

https://doi.org/10.1071/AR9931351

© CSIRO 1993

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