Cotton production during the tropical monsoon season. I – The influence of variable radiation on boll loss, compensation and yield

•The impact of cloudiness on boll survival & lint yield was measured under field conditions.•Inter-canopy dynamics of boll distribution and & yield was correlated with incident radiation during flowering.•Cloudiness induced fruit losses were compensated by later set bolls when climatic condi...

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Published in:Field crops research 2020-09, Vol.254, p.107790, Article 107790
Main Authors: Grundy, Paul R., Yeates, Stephen J., Bell, Kerry L.
Format: Article
Language:English
Subjects:
Boll abscission
Fruit shedding
Plant mapping
Tropical cotton
Yield compensation
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Summary:•The impact of cloudiness on boll survival & lint yield was measured under field conditions.•Inter-canopy dynamics of boll distribution and & yield was correlated with incident radiation during flowering.•Cloudiness induced fruit losses were compensated by later set bolls when climatic conditions improved.•Radiation thresholds provided a potential mechanism to quantify cloudiness risks for boll survival. Growth and reproductive structure development in cotton (Gossypium hirsutum) is dependent on light intensity, which is often irregular in tropical environments due to shading from cloudiness associated with the monsoon. The objective of this study was to evaluate the effects of cloudiness on reproductive organ abscission and how subsequent compensatory organ replacement, with the provision of irrigation, might recover yield in the semi-arid monsoon tropics. Cotton cultivars representing different morphology were sown in field experiments at closely timed intervals during the early monsoon over five seasons to expose crops to varying amounts of cloud-related shading, creating a matrix of crop responses. A wide range for lint yield (1099 to 2900 kg ha−1) was symptomatic of the treatments’ exposure to highly varied environmental conditions. Lint yield was moderately correlated (P < 0.01; Adj R2 = 0.409) with monsoon cloudiness, reducing 235 kg ha−1 per MJ m−2 decrease in the average daily incident radiation during flowering. Final boll number rather than boll size was the key yield component (P < 0.001), with the number of bolls retained and their location within the canopy correlated with the solar radiation pattern spanning flowering. Boll number m−2 decreased linearly in proportion to mean daily incident solar radiation, by 5.02 and 4.39 bolls MJ m−2 during early (P = 0.007) and late flowering (P = 0.02) respectively. Cloudiness-induced boll loss from the early flowering canopy produced a negative correlation with late boll numbers, increasing by 7.2 bolls per MJ m-2 d−1 decrease in mean incident radiation during early flowering (P < 0.001) as lower canopy boll loss enabled surplus assimilates for later set bolls. Fibre quality parameters were not negatively affected by reduced incident solar radiation during flowering and boll filling. The clustering of sowing times into groups according to similarities in the number and final distribution of bolls within the crop canopy provided a mechanism to identify sowing time treatments that shared similar compensat
ISSN:0378-4290
1872-6852
DOI:10.1016/j.fcr.2020.107790