Relationship Between Mass Loss and Fruit Quality of Sweet Orange at Two Different Storage Conditions

Samina Khalid; Muhammad Irfan Ullah; Muhammad Shafique Khalid; Muhammad Asif Naeem; Natasha Natasha; Rahina Kausar; Saeed Ahmad Qaisrani

doi:10.1007/s10341-022-00806-3

Relationship Between Mass Loss and Fruit Quality of Sweet Orange at Two Different Storage Conditions

Erwerbsobstbau (Berl). 2023 Jan 5:1-10. doi: 10.1007/s10341-022-00806-3. Online ahead of print.

Authors

Samina Khalid¹, Muhammad Irfan Ullah², Muhammad Shafique Khalid¹, Muhammad Asif Naeem¹, Natasha Natasha¹, Rahina Kausar³, Saeed Ahmad Qaisrani¹

Affiliations

¹ Department of Environmental Sciences, COMSATS University Islamabad, 61100 Vehari Campus, Pakistan.
² Department of Entomology, University of Sargodha, 40100 Sargodha, Pakistan.
³ Soil and Water Conservation Research Station, 43350 Fateh Jang, Pakistan.

Abstract

Mass loss from fresh produce is linked to a reduction of its aesthetic value. However, a relationship between mass loss and biochemical quality parameters at different storage conditions has not been widely explored. Therefore, the current study is designed with the objectives to determine the behavior of fruit quality parameters and a relationship between fruit mass loss and fruit quality at two different storage conditions. Sweet orange fruit stored in a zero energy cool chamber (ZECC) had greater shelf-life of more than 15 days, fruit size (62.40 mm) and peel (35.15%) and lower mass loss (4.94%), juice (32.19%) and electrical conductivity (EC) (2.06 S/m) as compared to ambient conditions in laboratory during 25 days of storage. In ZECC, only EC was positively correlated (r = 0.57) with mass loss, whereas at room temperature EC (r = 0.76), total soluble solids (TSS) (r = 0.60) and fruit internal temperature (r = 0.64) were positively and peel (%) (r = -0.52) and fruit diameter (r = -0.49) were negatively correlated with mass loss. Correlation of combined storage conditions revealed that EC (r = 0.47) and TSS (r = 0.50) were positively and peel (%) (r = -0.77) and fruit diameter (r = -0.55) were negatively correlated with mass loss (%). The principal component analysis (PCA) revealed that the scores of room temperature were strongly associated with TSS, pH, EC, mass loss (%), juice (%) and internal temperature (°C), whereas scores of ZECC were strongly associated with pulp (%), ascorbic acid (mg 100 mL^-1), acidity (%), and fruit diameter (mm).

Keywords: Ambient conditions; Fruit quality; Orange; Principal component analysis; Zero energy cool chamber.

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