| |
Web URL(s): | https://archive.lib.msu.edu/tic/ressum/2023/2023.pdf#page=368 Last checked: 05/10/2024 Requires: PDF Reader Notes: Item is within a single large file |
Publication Type:
| Report |
Author(s): | Zhou, Qiyu |
Author Affiliation: | North Carolina State University |
Title: | Potential CO2 capture via enhanced weathering by basaltic sand spreading on golf courses in the U.S. |
Section: | Environment Other records with the "Environment" Section
|
Source: | Mike Davis Program for Advancing Golf Course Management: 2023 Progress Reports. 2023, p. 360-365. |
Publishing Information: | Liberty Corner, New Jersey: The United States Golf Association Green Section |
# of Pages: | 6 |
Keywords: | TIC Keywords: Carbon sequestration; Dissolution rate; Emissions; Erosion; Golf course maintenance; Pollution control; Sand properties; Sand topdressings
|
Language: | English |
References: | 0 |
See Also: | Other Reports from this USGA research project: 2022-22-765 |
Note: | Tables Graphs |
USGA Summary Points: | Temperature, soil pH and basalt grain size significantly affect CO2 sequestration potential Substituting the currently used topdressing sand source, silica sand, with basaltic sand on putting greens located in warm region (≥ 25°C) and soil pH ≥ 8 could results in CO2 sequestration of a minimum of 0.4 Mt CO2(eq) yr-1 For the golf course is located in warm region (≥ 25°C) and soil pH ≥ 8, light and frequent basaltic sand application on maintained turfgrass area including putting greens, fairways, tees, practice areas, and roughs could result in CO2 sequestration of approximately 12 Mt CO2(eq) yr-1 Transportation of basalt material is a major source of CO2 emissions, substantially diminishing its sequestration potential. Instead of using USGA suggested sand particle size (0.05 to 1 mm), using reduced basaltic sand (≤50 µm) guarantees CO2 sequestration in warm region, and reduced basaltic sand (≤20 µm) guarantees CO2 sequestration in cold region. |
| ASA/CSSA/SSSA Citation (Crop Science-Like - may be incomplete): Zhou, Q. 2023. Potential CO2 capture via enhanced weathering by basaltic sand spreading on golf courses in the U.S.. USGA Turfgrass Environ. Res. Summ. p. 360-365. |
| Fastlink to access this record outside TGIF: https://tic.msu.edu/tgif/flink?recno=336650 |
| If there are problems with this record, send us feedback about record 336650. |
| Choices for finding the above item: |
| Web URL(s): https://archive.lib.msu.edu/tic/ressum/2023/2023.pdf#page=368 Last checked: 05/10/2024 Requires: PDF Reader Notes: Item is within a single large file |
| MSU catalog number: b3609415 |
| Request through your local library's inter-library loan service (bring or send a copy of this TGIF record) |