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Lifecycle assessments

Our products have an impact on the environment at each stage of their life cycle from the sourcing of raw materials through to product manufacture, distribution, consumer use and disposal. Understanding and managing these impacts is crucial to achieving our Sustainable Living Plan goals.

Woman working on production line

Life cycle assessment (LCA) is one of several techniques we use to help us understand the impacts of our products on the environment. We use LCA in three ways: in new product design; for assessments of existing products; and in science and methodological development.

New product design

Insights and knowledge from LCAs enable us to compare new and existing products and to measure the differences in their respective environmental profiles. This information helps guide product developers during the innovation process and may be used to communicate the environmental performance of our products to consumers.

Existing product assessment

We conduct LCAs on our existing products and ingredients to identify opportunities to reduce environmental impacts, and to improve the quality, availability and relevance of data used for our own studies and by other organisations. For example, we have used LCAs to support our work with supply chain partners on some of our key crops such as palm oil and tomatoes. This includes publishing papers on the carbon footprint of field grown tomatoes and an assessment of the variability in laundry washing in Europe.

We have also worked with the European surfactant industry to update the Life Cycle Inventories of the key surfactants used in home and beauty & personal care products. Our environmental sustainability scientists have supported the life cycle work of several organisations including the International Association for Soaps, Detergents and Maintenance Products (AISE), Cosmetics Europe, the Roundtable on Sustainable Palm Oil (RSPO) and the World Food Life Cycle Database initiative.

Science & methodological development

We engage with partners to develop and promote the science used for LCA, aiming to improve both the robustness and scope of life cycle-based approaches and assessment. We have published a number of papers (2017 publications list below) on new impact assessment methods for LCA within the areas of land use, biodiversity and water-related impacts and the challenges of applying a planetary boundary-based approach.

Our scientists also support the development of the science and capability for life cycle thinking. We sponsor programmes such as and the UNEP Life Cycle Initiative and participate in one of the EU Product Environmental Footprinting pilots on liquid laundry detergent. We are working with Radboud University in the Netherlands on the European Industrial Doctorate project (RELIEF project), through which we support the studies of five PhD students, who are working to improve the reliability of LCA for product footprinting.

Related publications in 2017

A model and tool to calculate life cycle inventories of chemicals discharged down the drain

Muñoz I, Otte N, Van Hoof G, Rigarlsford G (2017)
International Journal of Life Cycle Assessment, v22, p986-1004

Calculation of GHG emissions caused by direct land use change and cultivation on peat soil for palm kernel oil based precursors of surfactants

Liedke A, Eggers D, Gruenenwald T, McKeown P, Schneider C, Schowanek D, Gonzalez M, Lehmann A (2017)
ERASM website

Developing and testing a global-scale regression model to quantify mean annual streamflow

Barbarossa V, Huijbregts MAJ, Hendriks AJ, Beusen AHW, Clavreul J, King H, Schipper AM (2017) Journal of Hydrology, v544, p479-87

Freshwater ecotoxicity as an impact category in life cycle assessment

Otte N, Claessens M, Cooper C, Hoke R, King H, L’Haridon J, Palais F, Schmidt F, Schowanek D, Wolf T, Burgos MG (2017)
ECETOC Technical Report 127 (PDF | 2MB)

Intra- and inter-year variability of agricultural carbon-footprints - A case study on field-grown tomatoes

Clavreul J, Butnar I, Rubio V, King H (2017)
Journal of Cleaner Production, v158, p156-64

Life cycle assessment needs predictive spatial modelling for biodiversity and ecosystem services

Chaplin-Kramer R, Sim S, Hamel P, Bryant B, Noe R, Mueller C, Rigarlsford G, Kulak M, Kowal V, Sharp R, Clavreul J, Price E, Polasky S, Ruckelshaus M, Daily G (2017)
Nature Communications, v8, Article number: 15065

Technology choices in scaling up sanitation can significantly affect greenhouse gas emissions and the fertiliser gap in India

Kulak M, Shah N, Sawant N, Unger N, King H (2017)
Journal of Water, Sanitation and Hygiene for Development, v7, p466-76

The Challenges of Applying Planetary Boundaries as a Basis for Strategic Decision-Making in Companies with Global Supply Chains

Clift R, Sim S, King H, Chenoweth JL, Christie I, Clavreul J, Mueller C, Posthuma L, Boulay A-M, Chaplin-Kramer R, Chatterton J, DeClerck F, Druckman A, France C, Franco A, Gerten D, Goedkoop M, Hauschild MZ, Huijbregts MAJ, Koeliner T, Lambin EF, Lee J, Mair S, Marshall S, McLachalan MS, Milà i Canals L, Mitchell C, Price E, Rockström J, Suckling J, Murphy R (2017)
Sustainability, v9, Issue 2, Article number: 279 (PDF | 300KB)

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