Transplanted Ginkgo growth rates indicate common Chinese nursery techniques may severely limit urban ecosystem services

China has experienced history's largest rural-to-urban migration. The social, economic, and environmental challenges brought about by urbanization are diverse and complex. Given China's national goal to achieve carbon neutrality by 2060 and commitment to urban sustainability, large cities have focused on urban greening initiatives. Yet, studies seeking to quantify ecosystem services and disservices only assess healthy, mature trees, rather than those with severe damage, declining health, or lack of vitality due to poor management. In this short communication, we conducted a case-study in one of China's major nursery stock-producing cities, Chengdu, on a common street tree, Ginkgo biloba, to assess the long-term impact of one of the most common yet extreme nursery transplant practices on tree growth (traumatic root-cutting of ‘super-large’ nursery stock). We used tree-ring data collected in a typical urban greenspace from 23 Ginkgo trees, including 18 trees transplanted as ‘super-large’ nursery stock and a control group (5 trees) transplanted as small-caliper trees. We found the trees transplanted as ‘super-large’ nursery stock experienced declining tree growth with decades of lost landscape potential likely due to traumatic root-cutting at the time of transplant from nursery to landscape. The control group allowed contrast between the growth patterns of ‘super-large’ transplanted trees with those that remained healthy, being transplanted as smaller-caliper trees. For the ‘super-large’ trees, we found a decrease in carbon sequestration from 7.6 kg C yr−1 on average per tree in 2001 to about 1.5 kg C yr−1 on average per tree in 2021, while no decreasing trends were observed among the control trees. This implies a negative impact on multiple expected ecosystem services including carbon sequestration, shade, canopy coverage, and pollutant mitigation. These results highlight the unrecognized costs of common Chinese nursery and transplant techniques on urban landscape trees, necessitating more research, science-based policies, and better management techniques. [Display omitted] •Most ecosystem service studies use healthy/mature, not poorly-managed/damaged trees.•In China, “super-large” trees are transplanted to create “instant landscapes”.•Dendrochronology methods used on 23 “super-large” Ginkgo, 20-years post-transplant•Declining BAI and carbon sequestration indicate decades of lost ecosystem services.•Common nursery and landscape practices undermine China's ca