Urban wildflower meadow planting for biodiversity, climate and society: An evaluation at King's College, Cambridge

Urban wildflower meadow planting for biodiversity, climate and society: An evaluation at King's College, Cambridge

The biodiversity and climate crises are critical challenges of this century. Wildflower meadows in urban areas could provide important nature‐based solutions, addressing the biodiversity and climate crises jointly and benefitting society in the process. King's College Cambridge (England, UK) es...

Full description

Saved in:
Bibliographic Details
Published in:Ecological solutions and evidence Vol. 4; no. 2
Main Authors: Marshall, Cicely A. M., Wilkinson, Matthew T., Hadfield, Peter M., Rogers, Stephen M., Shanklin, Jonathan D., Eversham, Brian C., Healey, Roberta, Kranse, Olaf P., Preston, Chris D., Coghill, Steven J., McGonigle, Karris L., Moggridge, Geoffrey D., Pilbeam, Peter G., Marza, Ana C., Szigecsan, Darinka, Mitchell, Jill, Hicks, Marcus A., Wallis, Sky M., Xu, Zhifan, Toccaceli, Francesca, McLennan, Calum M., Eves‐van den Akker, Sebastian
Format: Journal Article
Language:English
Published: Hoboken John Wiley & Sons, Inc 01-04-2023
Wiley
Subjects:
20th century
Aesthetics
Biodiversity
Carbon dioxide
Carbon sequestration
Climate change
Climate change mitigation
Ecosystem services
Ecosystems
Emissions
Emissions control
Environmental impact
Flowers & plants
Grasslands
Landscape architecture
lawn
Lawns
Maintenance
Meadows
Medieval period
nature recovery
nature‐based solutions
Plant species
Planting
Potassium
Reflectance
restoration
Soil fertility
Soils
Species richness
Spiders
Urban areas
urban ecology
Variance analysis
wildflower meadow
Wildlife conservation
United Kingdom > UK
Europe
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:The biodiversity and climate crises are critical challenges of this century. Wildflower meadows in urban areas could provide important nature‐based solutions, addressing the biodiversity and climate crises jointly and benefitting society in the process. King's College Cambridge (England, UK) established a wildflower meadow over a portion of its iconic Back Lawn in 2019, replacing a fine lawn first laid in 1772. We used biodiversity surveys, Wilcoxon signed rank and ANOVA models to compare species richness, abundance and composition of plants, spiders, bugs, bats and nematodes supported by the meadow, and remaining lawn, over 3 years. We estimated the climate change impact of meadow vs lawn from maintenance emissions, soil carbon sequestration and reflectance effect. We surveyed members of the university to quantify the societal benefits of, and attitudes towards, increased meadow planting on the collegiate university estate. In spite of its small size (0.36 ha), the meadow supported approximately three times more plant species, three times more spider and bug species and individuals, and bats were recorded three times more often over the meadow than the remaining lawn. Terrestrial invertebrate biomass was 25 times higher in the meadow compared with the lawn. Fourteen species with conservation designations were recorded on the meadow (six for lawn), alongside meadow specialist species. Reduced maintenance and fertilising associated with meadow reduced emissions by an estimated 1.36 Mg CO2‐e per hectare per year compared with lawn. Relative reflectance increased by 25%–34% for meadow relative to lawn. Soil carbon stocks did not differ between meadow and lawn. Respondents thought meadows provided greater aesthetic, educational and mental wellbeing services than lawns. In open responses, lawns were associated with undesirable elitism and social exclusion (most colleges in Cambridge restrict lawn access to senior members of college), and respondents proved overwhelmingly in favour of meadow planting in place of lawn on the collegiate university estate. This study demonstrates the substantial benefits of small urban meadows for local biodiversity, cultural ecosystem services and climate change mitigation, supplied at lower cost than maintaining conventional lawn. King's College Cambridge (England, UK) established a wildflower meadow over a portion of its iconic Back Lawn in 2019. The meadow supported three times more plant species, three times more spider and bug species and individuals, and bats were recorded three times more often over the meadow than the remaining lawn. Small urban meadows bring substantial benefits for local biodiversity, cultural ecosystem services and climate change mitigation, at lower cost than maintaining conventional lawn. © Geoff Robinson/BAV Media.
ISSN:2688-8319
2688-8319
DOI:10.1002/2688-8319.12243