Quantifying Postharvest Loss and the Implication of Market-Based Decisions: A Case Study of Two Commercial Domestic Tomato Supply Chains in Queensland, Australia

Tara J Mckenzie,Steven J R Underhill,Lila Singh-Peterson

doi:10.3390/horticulturae3030044

Tara J Mckenzie, Steven J R Underhill + Show 1 more

Open Access

https://doi.org/10.3390/horticulturae3030044

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Journal: Horticulturae	Publication Date: Aug 5, 2017
Citations: 26	License type: CC BY 4.0

Affiliation: University of the Sunshine Coast

Abstract

Using a multi-disciplinary approach, this study quantifies horticultural postharvest losses of two medium-sized (annual pack volume 4500 t) commercial, domestic, tomato supply chains. Quantification of loss was based on weight or volume, consistent with direct measurement methods of the Food Loss and Waste Accounting and Reporting Standard 2016 and qualitative techniques were used to identify the drivers of the loss and contextualise the findings. Postharvest loss was found to be between 40.3% (55.34 t) and 55.9% (29.61 t) of the total harvestable product. It was determined that between 68.6% and 86.7% of undamaged, edible, harvested tomatoes were rejected as outgrades and consequently discarded due to product specifications. Between 71.2% and 84.1% of produced tomatoes were left in the field and not harvested. This study highlights significant factors contributing to high levels of food loss and waste. Edible products are being removed from the commercial food supply chain, rejected as outgrades deemed cosmetically defective due to market-based decisions. With only 44.1% and 59.7% of the harvestable crop reaching the consumers of the two supply chains, respectively, it is perhaps more appropriate to describe a food “waste” chain as opposed to a food “supply” chain.

Highlights

Feeding a global population of 9.5 billion by 2050 is anticipated to become one of the greatest challenges of our time [1,2,3]
Terminology used in this paper is based on the food loss and waste (FLW) Accounting and Reporting Standard 2016, with destination of loss referring to the end use or destination of product removed from the commercial food supply
This study sought to quantify postharvest losses associated with a highly-mechanised enterprise to determine drivers of FLW independent of postharvest handling practices

Summary

Introduction

Feeding a global population of 9.5 billion by 2050 is anticipated to become one of the greatest challenges of our time [1,2,3]. Rapid population growth [1,3,4,5,6,7], decreasing agricultural productivity [8,9,10], climate change [3,10,11], natural resource scarcity [3,12], and biofuel production [3,13,14,15,16,17,18] collectively undermine the current and future capacity of global food production systems. Global FLW has been estimated to represent 27% to 50% of total agricultural production [26,27,28,29,30,31].

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