Duke University. Nicholas School of the Environment.

Coastal marshes that have been invaded by feral hogs recover from disturbances up to three times slower than non-invaded marshes and are far less resilient to sea-level rise, extreme drought and other impacts of climate change, a new study led by scientists at Duke University and the University of Massachusetts Boston (UMB) finds. "Under normal circumstances, marshes can handle and recover from drought or sea level rise, given time, but there is no safety net in place for hog invasions," said Brian Silliman, Rachel Carson Distinguished Professor of Marine Conservation Biology at Duke, who co-authored the study.

UN. Food and Agriculture Organization.

The spread of plant diseases and pests is on the rise due to a changing climate. Plants are humans’ best friends and main allies in life on earth. Plants are responsible for 98 percent of the oxygen we breathe and make up 80 percent of our daily calorie intake. However, we often take them for granted, not realizing the importance of keeping them healthy. Every year up to 40 percent of food crops is lost to plant pests and diseases. These losses in both yields and income have a devastating effect on the poorest communities who base their livelihoods on agriculture.

USDA. FS. Climate Change Resource Center.

Forest tree diseases are often caused by infectious pathogens such as fungi and bacteria. Changing climate conditions can influence the spread of infectious diseases and their carriers, and add stresses to trees, making them more susceptible to diseases. Tree disease can also be caused by abiotic conditions such as air pollution, though this page deals primarily with biotic factors. Read the synthesis paper to learn more about these climate-disease interactions and how management strategies can address the potential shifting patterns of tree disease.

Pennsylvania State University. Pennsylvania Sea Grant.

Pennsylvania and New York Sea Grants worked together with funding from the Great Lakes Restoration Initiative to compile 10 lesson plans focusing on the potential interactions between aquatic invasive species and the changing climate.

University of Massachusetts Amherst. Northeast Climate Adaptation Science Center.

With climate change, many invasive plants are projected to shift their ranges, creating hotspots of future invasions across the U.S. Knowing the identities of new invasive plants headed to a nearby state creates an opportunity for proactive prevention and management. Unfortunately, monitoring for and managing all range-shifting invasive plants is untenable. To help prioritize range-shifting species, Northeast Climate Adaptation Science Center researchers performed impact assessments on 104 plants projected to expand into one or more mid-Atlantic states by 2040 with climate change. Their study was recently published (Oct 6, 2023) in Invasive Plant Science and Management "High-impact invasive plants expanding into mid-Atlantic states: identifying priority range-shifting species for monitoring in light of climate change."

DOI. United States Geological Survey.

Changing climate conditions have bearing on every aspect of biological invasions, in some cases worsening existing problems. Climate change is creating new pathways for invasive species to be introduced, such as shipping routes that open up as sea ice retreats. Warmer temperatures can allow existing invasive species to expand their range into habitat that is currently too cool. Similarly, impacts to native species and people may change if new conditions affect invasive species abundance. Climate change may make existing invasive species control tools less effective, such as aquatic barriers that require minimum water flows.

National Wildlife Federation.

Climate change poses growing risks to species, ecosystems, and people, and is challenging many of the assumptions that underpin modern conservation practice. As a result, there is an urgent need to not only center climate adaptation in conservation policy and practice, but for adaptation responses to be bolder and more innovative. Innovation in Climate Adaptation is designed to address this need by promoting creativity and innovation in the practice of climate adaptation for biodiversity and ecosystem conservation. This guide is a collaboration among the National Wildlife Federation, the U.S. Geological Survey Climate Adaptation Science Center Network, and the IUCN Species Survival Commission Climate Change Specialist Group.

Citation: Stein, B. A., J. A. Cushing, S. T. Jackson, M. Cross, W. Foden, L. M. Hallett, S. M. Hagerman, L. J. Hansen, J. J. Hellmann, D. Magness, G. F. Mendoza, C. Newsome, A. Pathak, S. M. Prober, J. H. Reynolds, and E. S. Zavaleta. 2024. Innovation in Climate Adaptation: Harnessing Innovation for Effective Biodiversity and Ecosystem Adaptation. Washington, DC: National Wildlife Federation.

Pennsylvania Department of Conservation and Natural Resources. Good Natured Blog.

"How climate changes will impact invasive species could vary depending on the region, the species affected, and the particular impacts being felt, but most invasives do well in a changing climate. We are already seeing some influences of climate change in Pennsylvania."

See also: Addressing Climate Change on Public Lands

National Invasive Species Council.

The following White Papers were adopted at the Invasive Species Advisory Committee (ISAC)'s November 2023 meeting:

• Invasive Species Threaten the Success of Climate Change Adaptation Efforts
• Underserved Communities and Invasive Species
• National Priorities of the Invasive Species Advisory Committee, 2022-2024

National Invasive Species Council.

Approved by ISAC Dec 9, 2010.
See related resource: Invasive Species Advisory Committee White Papers

University of California, Davis.

Native species in California's estuaries are expected to experience greater declines as invasive species interact with climate change, according to a study from the University of California, Davis. The study "Biological Invasions Alter Consumer-stress Relationships Along an Estuarine Gradient," published in the Ecological Society of America's journal, Ecology, said these declines are expected not only because of climate-related stressors, but also because of the expanding influence of new invasive predators whose impacts are occurring much farther up the estuary.

CAB International.

This book is part of the CABI Invasive Series, which addresses all topics relating to invasive species, including biosecurity surveillance, mapping and modelling, economics of invasive species and species interactions in plant invasions. This book specifically aims to examine the nexus of climate change and biological invasions, and the resulting impacts, and to identify means to reduce the vulnerability and increase the resiliency of managed and unmanaged ecosystems. (Full-text is available for employees on the USDA network).

Science X Network. Phys.org.

Pressures from climate change are exacerbating the challenges of human activity on Antarctica, as climate change is bringing milder conditions to these wildlife-rich areas, both on land and sea. As glaciers melt, new areas are exposed, which allows non-Antarctic species greater opportunity to establish and possibly outcompete locals for resources, such as nutrients and precious, ice-free space.
See also: Invasive non‐native species likely to threaten biodiversity and ecosystems in the Antarctic Peninsula region (Glob Chang Biol. 2020 Apr; 26(4): 2702–2716)

DOI. United States Geological Survey.

A web application displaying visual and statistical summaries of nationwide habitat suitability models for manager identified invasive plant species. INHABIT is a dataset containing the potential distribution of 259 invasive terrestrial plant species across the contiguous U.S.

This project is one among a set of coordinated projects funded (wholly or partially) by the Bipartisan Infrastructure Law through the US Department of the Interior to advance a nationally coordinated Early Detection and Rapid Response Framework.

Citation: Jarnevich, C.S., Engelstad, P., Williams, D.A., Shadwell, K.S., Reimer, C.J., Henderson, G.C., Prevéy, J.S., and Pearse, I.S., 2024, INHABIT species potential distribution across the contiguous United States (ver. 4.0, June 2024): U.S. Geological Survey data release, https://doi.org/10.5066/P14HNEJF.

Invasive Species Centre (Ontario).

USDA. Forest Service.

Chapter 4 (pages 57-83) in open access book; see related resource: Invasive Species in Forests and Rangelands of the United States: A Comprehensive Science Synthesis for the United States Forest Sector

Mean surface temperatures have increased globally by ~0.7 °C per century since 1900 and 0.16 °C per decade since 1970. Most of this warming is believed to result from increases in atmospheric concentrations of greenhouse gases produced by human activity. These changes will affect invasive species in several ways. Furthermore, climate change may challenge the way we perceive and consider nonnative invasive species, as impacts to some will change and others will remain unaffected; other nonnative species are likely to become invasive; and native species are likely to shift their geographic ranges into novel habitats.

In order to manage invasive species under a changing climate, it is important to anticipate which species will spread to new habitats and when, and to understand how the characteristics of specific invaders may disrupt or have the potential to disrupt invaded ecosystems. Of utmost importance in containing the spread of invasive species, managers must have the ability to (1) predict which species will positively respond to climate change, (2) predict and detect sites likely to be invaded, and (3) deter incipient invasions before they are beyond control. We outline methods for developing the capability to predict and monitor invasive species in order to forecast their spread and increase their detection. Key findings and key research needs are included for each section.

Citation: Finch, Deborah M.; Butler, Jack L.; Runyon, Justin B.; Fettig, Christopher J.; Kilkenny, Francis F.; Jose, Shibu; Frankel, Susan J.; Cushman, Samuel A.; Cobb, Richard C.; Dukes, Jeffrey S.; Hicke, Jeffrey A.; Amelon, Sybill K. 2021. Effects of Climate Change on Invasive Species. In: Poland, Therese M.; Patel-Weynand, Toral; Finch, Deborah M.; Ford Miniat, Chelcy; Hayes, Deborah C.; Lopez, Vanessa M., eds. Invasive Species in Forests and Rangelands of the United States: A Comprehensive Science Synthesis for the United States Forest Sector. Heidelberg, Germany: Springer International Publishing: 57 - 84. Chapter 4.

IUCN. Species Survival Commission. Invasive Species Specialist Group.

Separately, climate change and invasive species are two of the greatest threats to biodiversity and the ecosystem services upon which humanity relies. Combined their impacts will be compounded, potentially resulting in negative feedback loops with increasingly dire consequences. This publication from GISP highlights recent efforts to identify the underlying dynamics linking these two global change drivers and the optimal responses for the policy-making and research communities.

International Union for the Conservation of Nature.

"Over the recent decades globalisation has increased the movement of people and goods around the world, leading to a rise in the number of species introduced to areas outside their natural ranges. A 2017 study found that over one third of all introductions in the past 200 years occurred after 1970 and the rate of introductions is showing no sign of slowing down. In fact, a 2020 study predicts that the number of established alien species will increase by 36% between 2005 and 2050."

Manaaki Whenua Landcare Research (New Zealand).

A new project, "Managing Invasive Species for Climate Change Adaptation in the Pacific", is underway to allow Pacific Island Countries and Territories (PICTs) to take stronger action against invasive species and thereby build resilience to climate change. Invasive species make ecosystems and communities more vulnerable to natural disasters and the impacts of climate change. They increase erosion, reduce food and fish production, and pose critical threats to ecosystem services and human health. Invasive species will become more widespread as disturbances, carbon dioxide levels in the atmosphere, and temperatures all increase under climate change.

University of Washington. Northwest Climate Adaptation Science Center.

There is growing concern that changing climate conditions will amplify the negative impacts of non-native invasive species and facilitate their expansion. Despite the potential ecological and economic impacts of invasive species expansions in the Northwest, there has been no comprehensive synthesis on climate change effects on invasive species – until now. NW CASC-funded researchers Jennifer Gervais (Oregon Wildlife Institute), Clint Muhlfeld (U.S. Geological Survey) and colleagues conducted an extensive literature analysis to determine the current state of knowledge about climate change effects on non-native invasive species in the Northwest.