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ARS researchers are working to understand the impact of a changing climate on bee health. In observance of National Pollinator Week, Tellus presents a special article authored by two of ARS’s leading bee researchers.

Evidence suggests that future climate change will further increase the likelihood of invasion of forests and rangelands by nonnative plant species that do not normally occur there (invasive plants), and that the consequences of those invasions may be magnified. Read through the synthesis for more information on the factors that influence plant invasions and how these factors interact with one another.

The brown marmorated stink bug (BMSB), Halyomorpha halys, originally from East Asia, is an invasive pest that is present throughout much of the United States. It is attracted to the outside of houses on warm fall days in search of overwintering sites and can enter houses in large numbers. The brown marmorated stink bug is also a serious economic threat to fruit crops, garden vegetables, and many ornamentals. In a changing climate, agricultural losses from insect pests like BMSB are expected to increase.

USDA ARS scientists are fighting back by developing traps, sequencing the bug’s genome, and testing parasitic wasps as biocontrols. Midwest Climate Hub research fellow, Dr. Erica Kistner-Thomas is contributing to that fight through modeling the potential distribution and abundance of BMSB under future climate scenarios using a bioclimatic niche model. For more on Erica’s work, see: Climate Change Impacts on the Potential Distribution and Abundance of the Brown Marmorated Stink Bug (Hemiptera: Pentatomidae) With Special Reference to North America and Europe.

The Japanese beetle (Popillia japonica Newman) is a highly destructive plant pest of foreign origin. It was first found in the United States in 1916 and has since spread to most states east of, and immediately to the west of, the Mississippi River. It has also spread to some western States, but tough regulations and careful monitoring have prevented its establishment elsewhere. The Japanese beetle has become a serious plant pest and a threat to American agriculture.

Scientists with USDA’s ARS and APHIS have developed an integrated pest management (IPM) program that combines biological, cultural, and chemical strategies. In support of this plan, the Midwest Climate Hub Fellow, Dr. Erica Kistner-Thomas modeled how climate change may impact the distribution and voltinism (generations produced per year) of the Japanese beetle. Model projections indicate increases in temperature would enable northward range expansion across Canada while simultaneously shifting southern range limits in the United States northward. For more on Erica’s work, see: The Potential Global Distribution and Voltinism of the Japanese Beetle (Coleoptera: Scarabaeidae) Under Current and Future Climates.

Palmer amaranth (Amaranthus palmeri S. Watson) is an annual plant in the pigweed family (Amaranthaceae). It is native to the southwest United States/northern Mexico deserts and is currently increasing its range across the country. USDA NRCS, their partners, as well as farmers and landowners are working to eradicate these infestations before they spread to new areas. Midwest Climate Hub fellow, Dr. Erica Kistner-Thomas is getting a jump on how the distribution of Palmer amaranth will change from current to future climate conditions. Climate change is going to benefit this heat-tolerant weed by lengthening its growing season, boosting seed production and expanding its potential U.S. geographic range.

This report reviews available literature on climate-change effects on aquatic invasive species (AIS) and examines state-level AIS management activities. Data on management activities came from publicly available information, was analyzed with respect to climate-change effects, and was reviewed by managers. This report also analyzes state and regional AIS management plans to determine their capacity to incorporate information on changing conditions generally, and climate change specifically. Final Report EPA/600/R-08/014.

The Climate Change Program Office (CCPO) operates within the USDA Office of the Chief Economist to coordinate agricultural, rural, and forestry-related climate change program and policy issues across USDA. CCPO ensures that USDA is a source of objective, analytical assessments of the effects of climate change and proposed response strategies. This website provides information, reports, and data related to USDA’s analysis of these topics.

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.

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.

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.

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.

Feral swine have recently invaded parts of the Northwest. They have been invading southwestern and central Oregon since 2004 and were first detected in Washington in 2016. Idaho has not seen significant numbers of feral swine, however migrating pigs may pose a threat. The population growth potential of feral swine is closely associated with food availability, which is becoming more abundant year-round due to warmer winter conditions that are linked to climate change. Projected increases in extreme events and average summer temperatures in the region are not expected to negatively impact the success of feral pigs. In response, timely population control measures are necessary to avoid damage to crops, forests, and rangelands.

As climate change reduces the frequency and intensity of killing freezes, tropical plants and animals that once could survive in only a few parts of the U.S. mainland are expanding their ranges northward, a new U.S. Geological Survey-led study has found. The change is likely to result in some temperate zone plant and animal communities found today across the southern U.S. being replaced by tropical communities. These changes will have complex economic, ecological and human health consequences, the study predicts. Some effects are potentially beneficial, such as expanding winter habitat for cold-sensitive manatees and sea turtles; others pose problems, such as the spread of insect-borne human diseases and destructive invasive species.

The SCIENCEx webinar series brings together scientists and land management experts from across U.S. Forest Service research stations and beyond to explore the latest science and best practices for addressing large natural resource challenges across the country. These webinars are primarily management-focused, but with applicability for participants from across sectors.

SCIENCEx Climate Change -- October 25-29, 2021 (archived)

USDA's Climate Hubs are a unique collaboration across the department's agencies. They are led by Agricultural Research Service and Forest Service senior Directors located at ten regional locations, with contributions from many other programs including the Natural Resources Conservation Service, Farm Service Agency, Animal and Plant Health Inspection Service, and the Risk Management Agency. The Climate Hubs link USDA research and program agencies in their regional delivery of timely and authoritative tools and information to agricultural producers and professionals.
See also: Invasive species search results for related resources; subscribe to Pest & Disease RSS feed

The U.S. Department of Agriculture (USDA) announced it will invest $15 million this year for the Conservation Innovation Grants (CIG) Classic program. Through CIG, grantees work to address our nation's water quality, water quantity, air quality, soil health and wildlife habitat challenges, all while supporting agricultural production. This year’s funding priorities are climate-smart agriculture, addressing invasive species and conservation in urban agricultural systems. For more information about the Conservation Innovation Grants program, visit the NRCS website.

The USDA Agriculture, Forestry, and Climate Science Working Group and USDA’s Office of Energy and Environmental Policy have launched a year-long monthly webinar series that aims to equip USDA employees and key Cooperative Extension personnel with the scientific foundations of climate change as they apply to USDA’s mission and daily work. The series features leading scientists from within and outside USDA, who provide the latest scientific information and respond to questions about climate change and the application of science to decision-making on working lands. This series is designed to be of use to USDA conservation, resource management, commodity, and service staff. The material is accessible to those not already familiar with climate science, but also includes information that is of use to technical experts.