First Study to Link Glyphosate Use to Declines in Monarch Butterfly Populations

THIRD WORLD NETWORK BIOSAFETY INFORMATION SERVICE

 

Dear Friends and Colleagues

First Study to Link Glyphosate Use to Declines in Monarch Butterfly Populations

Monarch butterfly populations have been declining for the past 20 years. Unlike other migratory species, which have distinct summer and winter grounds, monarchs take multiple generations to travel from Mexico to Texas, from Texas to the Midwest, from the Midwest and into Canada, and finally, back from the upper Midwest and Canada to Mexico. Thus, the numbers of butterflies in small fields in the Midwest are linked to events that happen across the continent.

New research led by Michigan State University studied the summer abundance of monarch butterflies at sites across Illinois, USA, for the period 1994–2013, to assess relative associations of monarch abundance with climate and land use variables during the winter, spring, and summer stages of their annual cycle. The research team used data from a long-term citizen science monitoring program.

The study provides the first empirical evidence of a negative association between county-level glyphosate application and local abundance of adult monarchs, particularly in areas of concentrated agriculture, during the period 1994-2003, the initial phase of large-scale GM herbicide (namely, glyphosate) resistant crops in the Midwest. Glyphosate, a key ingredient found in Roundup and other herbicides, may be a contributing cause of the population decline due to its ability to reduce milkweed plants, the host plants for monarch eggs.

Across the study sites, a decline in the local abundance of monarch butterflies on their summer breeding grounds in Illinois from 2004–2013 was found, compared to the previous decade. The research has shown that seasonal climate and land use affect adult monarch abundance, which should be taken into account in future conservation efforts.

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Item 1

MONARCH BUTTERFLES: THE PROBLEM WITH HERBICIDES

Michigan State University
17 May 2017
https://www.sciencedaily.com/releases/2017/05/170517143600.htm#.WR1cB5bm5dB.twitter

Every winter, trees on high mountains in a small area northwest of Mexico City turn orange. Close inspection reveals branches filled with brilliantly colorful monarch butterflies, rather than fiery leaves, as the eastern North American population of monarchs winters there.

Their numbers, however, are shrinking. New research at Michigan State University, published in the current issue of the journal Ecography, makes a strong case that the reasons for this decline go far beyond what’s happening on the wintering grounds and addresses a current controversy about the primary causes of the specie’s decline.

"We need to think of migratory species at regional scales to truly understand how changes in climate and land use affect population trends," said Elise Zipkin, MSU integrative biologist and co-author. "Global declines in migratory species, including monarchs, suggest that broad-scale conservation action may be necessary to prevent the loss of migratory populations."

In that vein, the research team incorporated features from the butterflies’ complex continental movements to study the factors influencing summer populations in Illinois using data from a long-term citizen science monitoring program. Unlike other migratory species, which have distinct summer and winter grounds, monarchs take multiple generations to travel from Mexico to Texas, from Texas to the Midwest, from the Midwest and into Canada, and finally, back from the upper Midwest and Canada to Mexico.

Thus, the numbers of butterflies in small fields in the Midwest are linked to events that happen across the continent, said Sarah Saunders, MSU integrative biologist and lead author.

"The connection between population dynamics from winter to spring to summer is more complex than in other species," she said. "Our study provides the first empirical evidence of a negative association between glyphosate application and local abundance of adult monarch butterflies during 1994-2003, the initial phase of large-scale herbicide adoption in the Midwest."

Glyphosate, a key ingredient found in Roundup and other herbicides, may be a contributing cause of population decline due to its ability to reduce milkweed plants. While milkweed serves as the host plant for monarch eggs, the extent in which milkweed loss affects monarch trends is still controversial, she added.

Along with the impacts of herbicides, the study examined the effect of surrounding crop cover in summer habitat as well as cross-seasonal effects of spring weather fluctuations in Texas and population changes on the wintering grounds in Mexico.

"Butterflies face myriad challenges, and habitat loss and climate change are clearly important pieces of it," Zipkin said. "Our long-term goal is to examine the many stressors on monarchs across all seasons and identify which ones are the most critical. Future research could then offer solutions on how to develop effective conservation strategies."

The team’s research could generate answers that eventually help reverse the nearly 20-year decline of monarch butterflies observed in Mexico. It gives hope to anyone, scientists and the public alike, who has ever witnessed the mass of overwintering butterflies in Mexico or cheered a flitting monarch as it traverses vast distances across the United States.

"Migration — whether it’s undertaken by the smallest insects or the largest mammals — is a captivating phenomenon," Saunders said. "We hope that our study sheds light on how events and conditions during different stages affect the monarch butterfly’s annual cycle as well as provides findings that can inform future conservation efforts."


Item 2

LOCAL AND CROSS-SEASONAL ASSOCIATIONS OF CLIMATE AND LAND USE WITH ABUNDANCE OF MONARCH BUTTERFLIES DANAUS PLEXIPPUS

Sarah P. Saunders, Leslie Ries, Karen S. Oberhauser, Wayne E. Thogmartin, Elise F. Zipkin Ecography, 2017
DOI: 
10.1111/ecog.02719. 16 May 2017.
http://onlinelibrary.wiley.com/doi/10.1111/ecog.02719/abstract

Abstract

Quantifying how climate and land use factors drive population dynamics at regional scales is complex because it depends on the extent of spatial and temporal synchrony among local populations, and the integration of population processes throughout a species’ annual cycle. We modeled weekly, site-specific summer abundance (1994–2013) of monarch butterflies Danaus plexippus at sites across Illinois, USA to assess relative associations of monarch abundance with climate and land use variables during the winter, spring, and summer stages of their annual cycle. We developed negative binomial regression models to estimate monarch abundance during recruitment in Illinois as a function of local climate, site-specific crop cover, and county-level herbicide (glyphosate) application. We also incorporated cross-seasonal covariates, including annual abundance of wintering monarchs in Mexico and climate conditions during spring migration and breeding in Texas, USA. We provide the first empirical evidence of a negative association between county-level glyphosate application and local abundance of adult monarchs, particularly in areas of concentrated agriculture. However, this association was only evident during the initial years of the adoption of herbicide-resistant crops (1994–2003). We also found that wetter and, to a lesser degree, cooler springs in Texas were associated with higher summer abundances in Illinois, as were relatively cool local summer temperatures in Illinois. Site-specific abundance of monarchs averaged approximately one fewer per site from 2004–2013 than during the previous decade, suggesting a recent decline in local abundance of monarch butterflies on their summer breeding grounds in Illinois. Our results demonstrate that seasonal climate and land use are associated with trends in adult monarch abundance, and our approach highlights the value of considering fine-resolution temporal fluctuations in population-level responses to environmental conditions when inferring the dynamics of migratory species.

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