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COURSES AND MEASURING CARBON SEQUESTRATION AND SOIL CONSERVATION
Potential Of Turfgrass On Golf Fairways And Mown Roughs
PROJECT PERIOD: JANUARY 2020 - DECEMBER 2023
FUNDING (kSEK)
PRINCIPAL INVESTIGATOR / CONTACT PERSON
Edwin Roald, Eureka Golf ehf., Stekkjarflöt 23, 210 Garðabær, Iceland, edwin@eureka.golf, +354 693 0075.
CO-APPLICANTS
Jón Guðmundsson, Agricultural University of Iceland.
PROJECT OBJECTIVES
• Estimate CO2 losses and carbon storage from land use of cultivated and managed areas on Icelandic golf courses, in total and by facility.
• Discuss whether/how the estimation process can be streamlined further.
• Determine what is required in terms of funding, time and other resources to produce a similar estimation for other Scandinavian countries.
• Identify marked trends, if any, revealing or suggesting how golf facilities can, in a general sense, easily improve their carbon status from land use without negatively influencing the playing experience.
TALKS AT CONFERENCES, SEMINARS, MEETINGS ETC. IN 2022
June: Annual Conference of the European Institute of Golf Course Architects (EIGCA) ‘Is the climate emergency a golf emergency?’, Reykjavik, Edwin Roald.
Dissemination was very much the theme of Carbon Par´s project work in 2022. A large part of this was devoted to the organisation of the 2022 EIGCA Conference. Through Carbon Par, it was decided to devote this year’s conference entirely to climate change. The event was attended by 100 delegates from 25 locations in 19 countries. Most were golf course architects, a key sector of the golf industry that is involved in major decisions on golf course land use at present and in the future. The event concluded with the signing of a climate pledge by the world’s three major golf course architects’ associations. Information on the Carbon Par project is provided on its website, http://www.carbonpar.org, and in mainstream social media under @carbonpar.
Social media:
Facebook: 9 original posts and 1 share. Page likes to date: 142. Followers to date: 156.
Instagram: 6 posts. Followers to date: 410.
Twitter: 16 direct tweets and 12 retweets or quoted tweets. Followers to date: 377.
LinkedIn: 8 original posts and 4 shares. Followers to date: 155.
Project Summary And Status As Of 1 January 2023
Establishment of some golf courses has included wetland drainage or use of previously drained wetlands. Through this, many clubs have unintentionally caused large emissions of greenhouse gases. Emissions from golf courses on drained organic soils can thus be very high, while courses on mineral soils can sequester carbon. Grass can sequester considerable levels of carbon. Furthermore, managed grasslands, or turf, can sequester more carbon than unmanaged. This indicates that well located golf courses, thoughtfully planned, designed and built, have a reasonable chance of becoming net carbon sinks.
To estimate the carbon status of land used by all golf courses within the Golf Union of Iceland, a variety of methods are used, including mapping, reference to national soil databases, soil sampling, interviews and analysis. Perimeters of various golf course land use elements, such as fairways, managed roughs and native areas are drawn in architectural software, using underlying georeferenced aerial photographs. Each golf course area is broken down into 3-4 basic soil types. Soil samples are collected from a selection of golf facilities and analysed by dry combustion, delivering %C and %N content.
There are 61 golf course sites within the Golf Union of Iceland. These include 723 holes on the clubs’ main golf courses, i.e. those that have a course rating. There are exactly 100 holes on various short courses. All sites have been mapped. Preliminary spatial analysis of these maps reveals that Iceland’s golf courses occupy around 2350 hectares. Of this area, 51% is in the form of managed turf, special golf course features or hard surface, comprising mown rough (26.7%), fairways (19%), roads, paths, parking and buildings (2.9%), greens (1.4%), tees (0.7%) and sand bunkers (0.3%).
Collection of soil samples from all 61 golf course sites was completed in November 2022. Laboratory analysis has been completed for half of these, with the other half scheduled for completion in 2023, the last year of the project.
