Integrated analysis of energy and resource use indicators in rose production systems in open-field and protected condition in India

Comprehensive studies assessed the role of inputs on efficiency parameters in rose production systems in open-field and protected conditions at Bengaluru, India during 2017–2020. Results highlight that precision application of critical inputs based on assessment of crop demand contribute to 4-fold i...

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Bibliographic Details
Published inCleaner environmental systems Vol. 3; p. 100051
Main Authors Sujatha, S., Tejaswini, P.
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 01.12.2021
Elsevier
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Summary:Comprehensive studies assessed the role of inputs on efficiency parameters in rose production systems in open-field and protected conditions at Bengaluru, India during 2017–2020. Results highlight that precision application of critical inputs based on assessment of crop demand contribute to 4-fold increase in flower yields and substantial accumulation of above-ground biomass in open-grown roses. The net return per each unit investment can be trebled in loose flower rose and doubled in cut flower rose. Critical inputs such as nutrients and water account for maximum energy consumption (93.5–94.7%). Loose flower rose registers better energy efficiency indices than cut flower rose. In protected condition, variations in flower yields, carbon stocks and energy efficiency indices are significant among rose genotypes. Arka Swadesh genotype is efficient in resource use accruing maximum net benefit per rupee investment. Nutrients are the maximum consumers of energy (41.2%) followed by irrigation (20.9%). In protected condition, the productivity levels are similar among nutrient levels implying lesser nutrient application is sufficient for rose due to higher efficiency indices and optimum soil fertility. The results imply that rose production systems are highly productive and sustainable at optimum input levels and would reduce environmental pollution due to higher resource use efficiencies. [Display omitted] •Yields increase four-fold in open-grown roses with precision input application•Rose production system is an important carbon sink both in open-field and polyhouse•Net return trebles in loose flower rose and doubles in cut flower rose in open-field•Critical inputs are maximum energy consumers in open-grown roses than in polyhouse•Energy use efficiency is more in loose flower rose than in cut flower roses
ISSN:2666-7894
2666-7894
DOI:10.1016/j.cesys.2021.100051