Food wastage is a problem along the entire food supply chain and gives rise to great financial losses and waste of natural resources. The retail stage of the supply chain contributes significant masses of waste. In order to introduce efficient waste reduction measures, the wastage problem must first be properly described. Causes of wastage need to be identified before potential measures can be designed, tested and evaluated. This thesis quantifies retail food wastage and analyse its causes with the aim of providing information that can be used to suggest potential waste reduction measures.
Food wastage was quantified in six supermarkets in the Uppsala-Stockholm region of Sweden. Data were recorded during 2010 and 2011 by the retail company in a daily waste recording procedure. In addition, suppliers contributed data on deliveries and rejections. The main meat and deli supplier also contributed data on wholesale pack size and shelf-life, which allowed the relationship between these and their effect on waste to be analysed.
The waste of the fresh fruit and vegetables department was dominated by the pre-store waste caused by rejections, 3.0%, whereas the in-store waste was 1.3% consisting of 1.0% recorded waste and 0.3% unrecorded waste in relation to mass delivered. Fresh fruit and vegetables waste was mainly attributable to a few products, with the eight most wasted product types contributing 67% of waste within the department. The most wasted product was tomatoes, with 106 tons of waste during the two-year test period for the six stores, followed by bananas with 90 tons and lettuce with 82 tons.
Supermarket cheese, dairy, deli and meat departments all had less wasted mass and smaller percentage waste than the fruit and vegetables department. The top eight most wasted products within each of these departments contributed between 22% and 39% of the mass.
Organic products were found to cause higher percentage waste than conventional products. One systematic reason for this was the lower mass sold per article for organic products. For these products, increased shelf-life and decreased minimum order size, were found to be as effective a measure for waste reduction as increased turnover.
[1]
Jenny Gustavsson,et al.
Retail waste of horticultural products in Sweden
,
2011
.
[2]
T. Angervall.
Mat och klimat : en sammanfattning om matens klimatpåverkan i ett livscykelperspektiv
,
2008
.
[3]
Tristram Stuart,et al.
Waste: Uncovering the Global Food Scandal
,
2009
.
[4]
Carlos Mena,et al.
The causes of food waste in the supplier–retailer interface: Evidences from the UK and Spain
,
2011
.
[5]
Per Fahlén,et al.
Vertical display cabinets without and with doors - a comparison of measurements in a laboratory and in a supermarket
,
2010
.
[6]
Stefan Salhofer,et al.
Potentials for the prevention of municipal solid waste.
,
2008,
Waste management.
[7]
Ole Jørgen Hanssen,et al.
Initiatives on prevention of food waste in the retail and wholesale trades
,
2011
.
[8]
C. Nellemann,et al.
The environmental food crisis : the environment's role in averting future food crises
,
2009
.
[9]
J. Gustavsson.
Global food losses and food waste
,
2011
.
[10]
P. Juliano,et al.
The water footprint of food waste: case study of fresh mango in Australia. J Clean Prod
,
2010
.
[11]
Herman Nilsson,et al.
Integrating Sustainability in the Food Supply Chain : Two Measures to Reduce the Food Wastage in a Swedish Retail Store
,
2013
.
[12]
Chris Smaje,et al.
Surplus retail food redistribution: An analysis of a third sector model
,
2008
.
[13]
Annica Carlsson,et al.
Accounting for Flows of Fruit and Vegetables in the Food chain : Method development based on MFA
,
2010
.
[14]
Christian Andersson,et al.
Från jord till bord
,
2013
.
[15]
Åsa Stenmarck,et al.
Matavfall 2010 från jord till bord
,
2011
.
[16]
J. Parfitt,et al.
Food waste within food supply chains: quantification and potential for change to 2050
,
2010,
Philosophical Transactions of the Royal Society B: Biological Sciences.
[17]
Jean C. Buzby,et al.
Supermarket Loss Estimates for Fresh Fruit, Vegetables, Meat, Poultry, and Seafood and Their Use in the ERS Loss-Adjusted Food Availability Data
,
2009
.
[18]
M. Fehr,et al.
The basis of a policy for minimizing and recycling food waste
,
2002
.