Half of Kew tree species at risk of death owing to climate crisis, study finds
More than half of the tree species at Kew’s Royal Botanical Gardens are at risk of death because of climate breakdown, a study by the public body has found.Founded in 1840, Kew Gardens says it houses the largest botanical collection in the world. During the drought of 2022, the botanical gardens in south-west London lost 400 of its trees. Scientists at Kew decided they should map and chronicle the climate risk to the trees to see how many could feasibly be lost to the changing weather in the coming decades.The finding that half of Kew’s 11,000 trees are at risk has led the organisation to write a succession plan to replace some of the trees that are likely to die as the climate breaks down.Kew is particularly vulnerable as much of its planting was done at least 100 years ago, when future climate scenarios were not considered. The site was thought to have a specific and stable climate that supported trees that liked damp soil.The UK’s 10 warmest years since 1884 have occurred in the 21st century and London’s climate in 2050 is expected to be comparable with present-day Barcelona. The succession plan is important as urban trees help cool the area and provide shade for the habitat during heatwaves.Climate modelling by Kew drawing on specific projections for west London and weather station records from the botanical gardens have been combined with global tree data and details of existing plant collections, alongside empirical testing.The researchers found that more than 50% of Kew’s tree species could be vulnerable by 2090, with 45% predicted to be at the edge of their known range and 9% outside their known range based on mean annual temperature.Native trees such as silver birch could be at risk in areas of the UK with a similar climate to Kew. Photograph: Katherine Young/AlamyThis has implications for British natives such as English oak (Quercus robur), common beech (Fagus sylvatica), silver birch (Betula pendula) and holly (Ilex aquifolium), which could be at risk in areas of the UK with a similar climate to Kew.Vulnerable trees Kew has chosen to replace include those that are drought tolerant: Iberian alder (Alnus lusitanica), native to Portugal and Spain; Farges’ fir (Abies fargesii), endemic to central China; cherry hackberry (Celtis cerasifera), native to China, Myanmar and Tibet; Montezuma pine (Pinus montezumae), native to Central America; and spoon oak (Quercus urbani), native to Mexico.The report also states that existing species sourced from hotter European climates, such as oak trees, may be more resilient than English oaks, as they have adapted to the stressors in a hotter, drier environment.skip past newsletter promotionThe planet's most important stories. Get all the week's environment news - the good, the bad and the essentialPrivacy Notice: Newsletters may contain info about charities, online ads, and content funded by outside parties. For more information see our Privacy Policy. We use Google reCaptcha to protect our website and the Google Privacy Policy and Terms of Service apply.after newsletter promotionRichard Barley, the director of gardens at Kew, said: “[The succession plan] is a crucial and very timely step towards understanding the effects of the projected climate on our living landscapes, enabling us to implement changes that will make them more resilient.“This is not just about Kew Gardens though; it is a broad call to diversify the plants we select for our landscapes. By focusing on resilience and adaptability we hope to show it is possible to mitigate the severe impacts of climate change in both urban spaces and gardens such as Kew.”Ross Cameron, a professor of environmental horticulture at the University of Sheffield, said of the findings: “The implications from the Kew report are reasonable. It is logical to assume that tree species, for example, that prefer moist damp conditions may struggle in the south-east of England in future. So our native Alnus (alders) and Sorbus (rowans and whitebeams) may find conditions too dry to succeed.”
Botanical gardens lost 400 trees during 2022 drought, prompting research into potential loss in coming decadesMore than half of the tree species at Kew’s Royal Botanical Gardens are at risk of death because of climate breakdown, a study by the public body has found.Founded in 1840, Kew Gardens says it houses the largest botanical collection in the world. During the drought of 2022, the botanical gardens in south-west London lost 400 of its trees. Scientists at Kew decided they should map and chronicle the climate risk to the trees to see how many could feasibly be lost to the changing weather in the coming decades. Continue reading...
More than half of the tree species at Kew’s Royal Botanical Gardens are at risk of death because of climate breakdown, a study by the public body has found.
Founded in 1840, Kew Gardens says it houses the largest botanical collection in the world. During the drought of 2022, the botanical gardens in south-west London lost 400 of its trees. Scientists at Kew decided they should map and chronicle the climate risk to the trees to see how many could feasibly be lost to the changing weather in the coming decades.
The finding that half of Kew’s 11,000 trees are at risk has led the organisation to write a succession plan to replace some of the trees that are likely to die as the climate breaks down.
Kew is particularly vulnerable as much of its planting was done at least 100 years ago, when future climate scenarios were not considered. The site was thought to have a specific and stable climate that supported trees that liked damp soil.
The UK’s 10 warmest years since 1884 have occurred in the 21st century and London’s climate in 2050 is expected to be comparable with present-day Barcelona. The succession plan is important as urban trees help cool the area and provide shade for the habitat during heatwaves.
Climate modelling by Kew drawing on specific projections for west London and weather station records from the botanical gardens have been combined with global tree data and details of existing plant collections, alongside empirical testing.
The researchers found that more than 50% of Kew’s tree species could be vulnerable by 2090, with 45% predicted to be at the edge of their known range and 9% outside their known range based on mean annual temperature.
This has implications for British natives such as English oak (Quercus robur), common beech (Fagus sylvatica), silver birch (Betula pendula) and holly (Ilex aquifolium), which could be at risk in areas of the UK with a similar climate to Kew.
Vulnerable trees Kew has chosen to replace include those that are drought tolerant: Iberian alder (Alnus lusitanica), native to Portugal and Spain; Farges’ fir (Abies fargesii), endemic to central China; cherry hackberry (Celtis cerasifera), native to China, Myanmar and Tibet; Montezuma pine (Pinus montezumae), native to Central America; and spoon oak (Quercus urbani), native to Mexico.
The report also states that existing species sourced from hotter European climates, such as oak trees, may be more resilient than English oaks, as they have adapted to the stressors in a hotter, drier environment.
Richard Barley, the director of gardens at Kew, said: “[The succession plan] is a crucial and very timely step towards understanding the effects of the projected climate on our living landscapes, enabling us to implement changes that will make them more resilient.
“This is not just about Kew Gardens though; it is a broad call to diversify the plants we select for our landscapes. By focusing on resilience and adaptability we hope to show it is possible to mitigate the severe impacts of climate change in both urban spaces and gardens such as Kew.”
Ross Cameron, a professor of environmental horticulture at the University of Sheffield, said of the findings: “The implications from the Kew report are reasonable. It is logical to assume that tree species, for example, that prefer moist damp conditions may struggle in the south-east of England in future. So our native Alnus (alders) and Sorbus (rowans and whitebeams) may find conditions too dry to succeed.”