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Sounds of the Tropics: Part 2. How are frogs responding to hurricanes, droughts, and climate change?

Author(s): Marconi Campos-Cerqueira1, Mitchell Aide2

1. Rainforest Connection 2. University of Puerto Rico - Rio Piedras

Summary:
This online module explores the response of a tropical frog community to hurricanes, drought, and climate change. We use acoustic monitoring and occupancy modeling to understand how frog distributions have responded to these diverse types of…

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This online module explores the response of a tropical frog community to hurricanes, drought, and climate change. We use acoustic monitoring and occupancy modeling to understand how frog distributions have responded to these diverse types of disturbances.

Licensed under CC Attribution-NonCommercial-ShareAlike 4.0 International according to these terms

Version 1.0 - published on 24 Jul 2023 doi:10.25334/X5B0-8S30 - cite this

Description

Overview of Module:

Frogs are very sensitive to changes in their environment. For this reason, these animals are often chosen as indicators of habitat quality. Frogs' semi-permeable skin makes them vulnerable to desiccation (or loss of moisture), but other factors like habitat loss (e.g., deforestation), climate change, and disease are playing important roles in the global decline of amphibian populations. The presence and abundance of frog species can provide important clues about the health of a habitat.

The Coqui frog community on the Caribbean island of Puerto Rico faces a unique combination of factors. First, in pre-Columbian times most of the island was covered in tropical forest, but by the peak of the sugar cane boom (~1940), forest cover declined to <10%. In the 1940s and 50s, socioeconomic changes led to rural-urban migration and the decline of agriculture. Today forest cover is >50%.  Although deforestation is presently not a serious problem for the frogs of Puerto Rico, they still face hurricanes, disease, droughts, and warming temperatures. In this case study, we use acoustic monitoring and occupancy modeling to understand how frog distributions have responded to these diverse types of disturbances.

Learning Objectives:

  • Understand how acoustic recordings can be used to study and monitor animal populations.
  • Develop a basic understanding of experimental design and the concept of occupancy modeling.
  • Understand how different types of disturbances can affect a frog community.
  • Develop analytical skills by exploring acoustic recordings and associated analyses.

 

Support was provided by: Grants from the United States National Science Foundation (DBI-RCN-UBE 1919640 and 2120141).

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