Parts of U.S.’s Southernmost States Will ‘Tropicalize’ as Climate Changes

Cold-sensitive plants, animals moving north due to fewer, weaker winter freezes



03/18/2021
BATON ROUGE – As climate change reduces the frequency and intensity of killing freezes, tropical plants and animals that once could survive in only a few subtropical parts of the U.S. are expanding their ranges northward, according to a new study led by the U.S. Geological Survey. This change is likely to result in some temperate zone plant and animal communities found today across the southern U.S. being replaced by tropical plant and animal 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 researchers found that a number of tropical plant and animal species are expanding their ranges northward. These tropical plants and animals include insects, fish, reptiles, amphibians, mammals, grasses, shrubs and trees. Among them are species native to the U.S. such as mangroves, which are tropical salt-tolerant trees, and snook, a warm water coastal sport fish, and invasive species such as Burmese pythons and buffelgrass.  

In the study published this month in Global Change Biology, a team of 16 scientists who have studied the effects of killing freezes describe how many cold-sensitive tropical plants and animals are kept in check by temperate zone winter cold snaps. Warming winters allow these organisms to spread north, especially into the eight subtropical U.S. mainland states: Florida, Alabama, Mississippi, Louisiana, Texas, New Mexico, Arizona and California. 

Most climate change studies focus on changes in mean temperature rather than changes in the highest highs and lowest lows, so the powerful effects of extreme cold snaps on ecosystems are poorly understood, according to USGS research ecologist Michael Osland, the study’s lead author. 

“As climate changes, extreme weather events may become more or less common. In this instance what we found is that there are fewer freeze events taking place across the southern United States, including the coastal zone of Louisiana. My colleagues and I document how the reduction in freeze events are affecting subtropical regions like Louisiana,” said Louisiana State Climatologist and the LSU Department of Geography & Anthropology Richard J. Russell Professor Barry Keim. 

The authors document several decades’ worth of changes in the frequency and intensity of extreme cold snaps in San Francisco, Tucson, New Orleans and Tampa – all cities with temperature records stretching back to at least 1948. In each city, they found, mean winter temperatures have risen over time, winter’s coldest temperatures have gotten warmer, and there are fewer days each winter when the mercury falls below freezing. 

The authors include scientists from LSU, the Florida Fish and Wildlife Conservation Commission, National Oceanic and Atmospheric Administration, National Aeronautics and Space Administration, University of Arizona, University of California Berkeley, University of California Santa Cruz, University of British Columbia and the Bonefish and Tarpon Trust.   

Changes already underway or anticipated in the home ranges of 22 plant and animal species from California to Florida include: 

Cold-sensitive mangrove forests have been displacing temperate salt marsh plants along the Gulf and southern Atlantic coasts for 30 years. With sea-level rise, mangroves may also move inland, displacing temperate and freshwater forests. 

  • Buffelgrass and other annual grasses are moving into Southwestern deserts, fueling wildfire in native plant communities that have not evolved in conjunction with frequent fire. 

  • Tropical mosquitos that can transmit encephalitis, West Nile virus and other diseases are likely to further expand their ranges, putting millions of people and wildlife species at risk of these diseases.

  • The southern pine beetle, a pest that can damage commercially valuable pine forests in the Southeast, is likely to move northward with warming winters.

  • Recreational and commercial fisheries are being disrupted by changing migration patterns and the northward movement of coastal fishes.  
     

The authors suggest considering a scientific “rapid response” network to study the effects of cold snaps in the real world as they happen. For example, Osland said “the February 2021 freeze in Texas and Louisiana presented a once-in-several-decades opportunity to better understand the effects of extreme cold events on tropical cold-sensitive species including mangroves, coastal fishes, sea turtles, invasive Cuban tree frogs and invasive Brazilian pepper trees.” 

They also suggest in-depth laboratory studies to learn how tropical species can adapt to extreme conditions and modeling to show how lengthening intervals between cold snaps will affect plant and animal communities. 

The journal article, "Tropicalization of temperate ecosystems in North America: The northward range expansion of tropical organisms in response to warming winter temperatures" is online at 10.1111/gcb.15563.

 

Contact Alison Satake
LSU Media Relations
c. 510-816-8161
asatake@lsu.edu