Stryker's Sustainability Solutions

Better for healthcare. Better for the planet.

Since the inception of our Products for the Planet program in 2017, Stryker’s Sustainability Solutions provides hospitals with the opportunity to contribute to the restoration of national forests. Now, we are expanding globally through our partnership with veritree. See our progress below.

We have planted 7,350 verified trees with veritree.


Our latest impact statistics based on trees we are planting

Our latest impact statistics based on our kelp restoration efforts

Trees in our forest

  • Interior Douglas

    Natural regeneration after severe fires can take 40-50 years. In some cases, natural forest regrowth will not be possible and the area may be replaced by a bushy shrubland and the original forest will be lost for good. Tree species are chosen for their ecological suitability as well as ability to withstand shifts in climate with increased global temperatures. This includes the following tree species: Douglas-fir, lodgepole pine, ponderosa pine, hybrid spruce, and western larch.

  • Oregon Wildfire

    In Oregon, Douglas Fir trees are planted to restore areas affected by wildfires. These trees are native to the Pacific Northwest.

  • Kelp

    Kelp is considered as a foundation species the whole ecosystem depends on. Critical kelp forest in the West Coast of North America has been declining due to climate change. The species of kelp being planted include bull kelp, sugar kelp, and winged kelp. Kelp forests are excellent carbon sinks and provide crucial habitat for many species, such as salmon and otters.

  • Mangrove

    Mangroves are short, bushy trees that grow in saltwater along coastlines and in intertidal zones.

  • Agroforestry

    Agroforestry is a sustainable land-use approach that combines trees, crops, and sometimes animals on the same piece of land. Agroforestry integrates diverse elements to create mutually beneficial relationships, like growing coffee under shade trees.

Carbon sequestered from our forest

Hover over the graph to reveal tonnes of CO2 sequestered over time.

No data related to carbon sequestration found for your orders.

* The carbon sequestration for kelp is not depicted on the above graph due to complexities and variation when measuring kelp biomass and life cycle.

Why we're investing in Nature-Based Solutions

          We are pushing Earth dangerously close to tipping points. Today, millions of people are already exposed to the effects of biodiversity loss and climate change. We need to act urgently today to avoid the most dangerous impacts of climate change.

This is why we are working with veritree to restore the environment in countries around the world. We believe we have our part to play in the net zero transition, while supporting local communities, addressing economic inequality and regenerating nature.

Sustainable Development Goals supported

  • 8 - Decent Work and Economic Growth
  • 13 - Climate Action
  • 15 - Life on Land

Our Sustainability Story

            At Stryker’s Sustainability Solutions, sustainability is the center pillar of our organizational strategy. As a reprocessor, we are passionate about extending the useful life of single-use medical devices and diverting waste from landfills, while offering cost-effective solutions. Over the last five years, we have helped our customers save over $1B in supply costs and have diverted 26M pounds of waste from landfills.

To learn about your facility’s individual impact please contact your SSS representative. For the latest info
on SSS visit

Frequently Asked Questions

‘Nature-Based Solutions’ is a technical term that simply describes an action that results in either avoided deforestation or enhancing a carbon sink through reforestation or ecosystem restoration.

According to analysis by the World Economic Forum and McKinsey, Nature-Based Solutions are a cost-effective means to deliver up to one-third of the emissions reduction needed by 2030 as part of the net zero transition to achieve a 2-degree pathway.

Moreover, investment in Nature-Based Solutions, when done well, can accrue co-benefits that help address other societal challenges while being good for business, people, and nature. However, when done badly, the investment may do more harm than good.

veritree works with planting organizations across the globe to verify Nature-based Solutions (NbS) projects. We are initially launching the platform with planting projects in Canada, Kenya, Madagascar, United States, and Tanzania with plans to quickly expand to more sites in the coming months.

The veritree platform was built to be easily used by any restoration practitioner looking to develop and operate high-quality NbS projects. Our ground-level monitoring tools enable any planting organizations in any location in the world to scale NbS. This enables to connect planting organizations with corporate partners and donors to support their restoration initiatives.

Approximately 10% of the funding for tree planting goes to protecting the forest for the initial 3-5 years - the critical years where trees are most vulnerable. We also establish buffer pools to cover any potential abnormal losses.

But veritree goes beyond simply allocating money. We work closely with the local communities to showcase the immense value newly planted forests bring to their families. Through education and by involving them in the monitoring and reporting process, we find local communities quickly develop a deep sense of ownership and pride over their trees, leading to effective management over the long-term, keeping forests not just alive, but keeping them thriving.

Let’s start off by acknowledging that carbon accounting is extremely challenging and accounting for carbon sinks is still an evolving practice!

Our current estimates are based upon averages derived from a cross-section of studies conducted on mangrove ecosystems in equatorial regions focusing on countries in Southeast Asia and Africa, and Acadian ecosystems in Eastern Canada. The following variables are taken into consideration when we estimate carbon sequestration rate: i) species planted (including maturity age of the tree species), ii) forest type, iii) region, and iv) average tree survivability. Based on these variables, carbon sequestration is first calculated at the hectare level and includes above ground carbon (leaves, plant biomass, stumps, etc.), below ground carbon (roots, debris, etc.), and soil carbon (carbon that has been affixed to the soil). Carbon sequestration estimates are then quantified at the per tree level based on forecasted planting densities.

When primary data are not available, as a general rule of thumb, veritree uses a conservative set of secondary data, proxy data or assumptions to ensure that we are not overestimating the carbon sequestration rate resulted from our projects. Moreover, we use data collected at the site-level to validate or adjust our estimations and we will continue to improve our estimation method through building partnership with academics in this space. It is also important to note that veritree currently does not offer carbon credits as part of our service due to uncertainties around carbon credits and accounting of carbon sinks.

While we have referenced credible academic papers to arrive at our best estimate of carbon sequestration resulting from our project portfolio, we acknowledge there are limitations and uncertainties based on our current estimation methodology. As such, we will continue to improve our estimation method through building partnership with academics in this space.

Source: Jones, Trevor G., Harifidy Rakoto Ratsimba, Lalao Ravaoarinorotsihoarana, Garth Cripps, and Adia Bey. "Ecological variability and carbon stock estimates of mangrove ecosystems in northwestern Madagascar." Forests 5, no. 1 (2014): 177-205.
Benson, Lisa, et al. Mangrove Carbon Stocks and Ecosystem Cover Dynamics in Southwest Madagascar and the Implications for Local Management, Multidisciplinary Digital Publishing Institute, 31 May 2017,

Additionality and permanence are critical to ensuring we are actually having an impact (not just doing something that would have happened anyway), and that the impact we have is long lasting.

To ensure additionality, each tree planted through veritree platform has its own unique QR code to make sure that it is new and unique. We collaborate with both corporate partners and local planting partners from tree order to tree planting and beyond to ensure a seamless process that creates new carbon sinks that otherwise would not have been planted.

To ensure permanence, veritree gathers on-the-ground monitoring to ensure trees remain in the ground over the first five years of its life. Part of the tree planting funding goes towards protection (from animals and human intervention) and by year 5 and onward, remote sensing (e.g. satellite imagery) is incorporated to monitor the long-term growth of the forest.

Level 1 – The first level of verification is complete once planting planters have submitted their planting form, activities, and applicable evidence through veritree’s Collect App.

Level 2 - During the second level of verification, planting site management (leads and supervisors) check the data and information submitted via a planting site review and data check.

Level 3 - The third and final level of verification is conducted by veritree. At this stage all submitted data and evidence is analyzed by our internal machine learning algorithms to check for accuracy.

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