What is a Life Cycle Assessment (LCA) Tool?

An LCA or Life Cycle Assessment is a method of understanding what the environmental footprint of a product will be, over its full life cycle – from cradle to grave.

How is MarineShift360 different from other tools?

This purpose-built marine industry tool provides a cradle to grave assessment of the materials and processes involved in yacht construction. You will be able to understand the full environmental footprint of your product across all stages of its life cycle. With data collected by marine industry experts, from a diverse mix both geographically and sector-wide range of businesses in performance, production, rigging, sails, deck hardware. This tool measures 6 different environmental markers to provide an environmental footprint of your product.

Is the MarineShift360 tool certified?

Yes, it is certified in accordance with the standards for life cycle assessment: ISO 14040:2006 and ISO 14044:2006. However, individual outputs and reports generated through the use of MarineShift360 must be separately reviewed to confirm compliance to ISO 14040:2006 and ISO 14044:2006 if compliance to these standards is required by the tool user. This process will be straightforward if the MarineShift360 tool guidance has been followed and the report template has been used as intended.

How does MarineShift360 work?

The tool computes the distribution of the impact of your product across all its life stages. You will be able to see where greatest impacts lie across a number of parameters, including the ability to look in more granular detail. Ultimately, it allows the user to bring end of life thinking into the design stage and make a strategy to reduce overall environmental impact of the product.

What does it measure?

It currently measures global warming potential (kgCO2e), nonrenewable resource depletion, water consumption, marine eutrophication, energy consumption and waste production.


If we can’t measure it, we can’t manage it.

  1. Select your material types and volumes and pick your processes from a database of over 200 entries that contain environmental footprints based on 30 years of boat building experience.
  2. Quickly assess and compare parts based on environmental footprint, not only during manufacture, but over every step of the component’s lifespan.
  3. Adjust inputs as necessary, take measures to reduce impacts, and make informed decisions at design stage.

The LCA Tool

Automotive Industry Example

The background
Jaguar Land Rover (JLR) has been using its in–house LCA ‘Rapid Tool’ for approximately 10 years.

The outcome
"The tool has supported savings of a few kgs of CO2 per vehicle through to material changes that reduce annual CO2 emissions by thousands of tonnes.

The tool enables specific engineering targets to be set for key systems within the finished product helping to drive sustainable engineering within products.

"Using the tool to identify significant CO2 reduction opportunities normally coincides with significant material cost reduction potential and the ability to compare different supplier solutions. The tool also helps us stay ahead of forthcoming legislation on life cycle assessment."

Jamie Shaw - Technical Specialist, Vehicle Sustainability at Jaguar Land Rover

Case Study

AC36 Class Rule

The background
During the establishment of the 36th America’s Cup Class Rule, ETNZ (Defender) and Luna Rossa (Challenger of Record) were keen to include sustainability requirements in the construction of the AC75.

The outcome
The pilot version of the LCA tool was applied to a concept AC75. The results were used to assist authors of the Class Rule in mandating a series of sustainable construction methods for Rule 7.8 Construction of a hull must meet the first time in America’s Cup history.

Rule 7.8
Construction of a hull must meet at least two of the following criteria (where the mould refers to the mould or moulds for at least 80% of the outside skin of the hull surface ):
(a) the mould plug is constructed of recyclable material (e.g. PET), with that plug being delivered to a recycling plant by 1st January 2021
(b) the mould plug is constructed of recycled material
(c) the mould plug is constructed of sustainably sourced material (e.g. timber)
(d) at least 10% of the carbon reinforcement used in the mould is from recycled sources
(e) the mould is constructed from fibres with low embodied energy (e.g. basalt)
(f) a life-cycle analysis is performed on the hull to the satisfaction of the Measurement Committee.

Case Study

Docking RIBS

The requirement

Challenged by their exclusive Sustainability Partner, 11th Hour Racing, The British Challenge for the 35th America’s Cup piloted the test LCA model to assess the overall benefits of the alternative materials that were used in the build of their two docking RIBs. They wanted to understand the impacts of alternative sustainable materials, and worked with 53 apprentices in their construction. Flax fibres were selected for the floor panels, a core made from recycled PET plastic and a resin based on 50% bio-content.

The outcome

The docking RIBs, when compared to a ‘control’ RIB, showed a saving of around 1.5 tonnes of CO2 and a cost saving of around £1,500.