Your search keyword '"Pollinator decline"' showing total 5 results

1. Flowering plant composition shapes pathogen infection intensity and reproduction in bumble bee colonies.

Author

Adler, Lynn S., Barber, Nicholas A., Biller, Olivia M., and Irwin, Rebecca E.

Subjects

*FLOWERING of plants, *BUMBLEBEES, *CHEMICAL composition of plants, *BEE colonies, *COMPOSITION of flowers

Abstract

Pathogens pose significant threats to pollinator health and food security. Pollinators can transmit diseases during foraging, but the consequences of plant species composition for infection is unknown. In agroecosystems, flowering strips or hedgerows are often used to augment pollinator habitat. We used canola as a focal crop in tents and manipulated flowering strip composition using plant species we had previously shown to result in higher or lower bee infection in short-term trials. We also manipulated initial colony infection to assess impacts on foraging behavior. Flowering strips using high-infection plant species nearly doubled bumble bee colony infection intensity compared to low-infection plant species, with intermediate infection in canola-only tents. Both infection treatment and flowering strips reduced visits to canola, but we saw no evidence that infection treatment shifted foraging preferences. Although high-infection flowering strips increased colony infection intensity, colony reproduction was improved with any flowering strips compared to canola alone. Effects of flowering strips on colony reproduction were explained by nectar availability, but effects of flowering strips on infection intensity were not. Thus, flowering strips benefited colony reproduction by adding floral resources, but certain plant species also come with a risk of increased pathogen infection intensity. [ABSTRACT FROM AUTHOR]

Published

2020

2. No buzz for bees: Media coverage of pollinator decline

Author

Jenna Jordan, Dan Shalmon, Scott L. Althaus, and May R. Berenbaum

Subjects

Insecta, Pollination, Climate Change, Population, Climate change, 050801 communication & media studies, Extinction, Biological, Ecosystem services, Newspaper, 0508 media and communications, Pollinator, Development economics, 050602 political science & public administration, Animals, Mass Media, education, education.field_of_study, Multidisciplinary, Information Dissemination, 05 social sciences, Global warming, Biodiversity, Pollinator decline, 0506 political science, The Global Decline of Insects in the Anthropocene Special Feature, Geography

Abstract

Although widespread declines in insect biomass and diversity are increasing concerns within the scientific community, it remains unclear whether attention to pollinator declines has also increased within information sources serving the general public. Examining patterns of journalistic attention to the pollinator population crisis can also inform efforts to raise awareness about the importance of declines of insect species providing ecosystem services beyond pollination. We used the Global News Index developed by the Cline Center for Advanced Social Research at the University of Illinois at Urbana–Champaign to track news attention to pollinator topics in nearly 25 million news items published by two American national newspapers and four international wire services over the past four decades. We found vanishingly low levels of attention to pollinator population topics relative to coverage of climate change, which we use as a comparison topic. In the most recent subset of ∼10 million stories published from 2007 to 2019, 1.39% (137,086 stories) refer to climate change/global warming while only 0.02% (1,780) refer to pollinator populations in all contexts, and just 0.007% (679) refer to pollinator declines. Substantial increases in news attention were detectable only in US national newspapers. We also find that, while climate change stories appear primarily in newspaper “front sections,” pollinator population stories remain largely marginalized in “science” and “back section” reports. At the same time, news reports about pollinator populations increasingly link the issue to climate change, which might ultimately help raise public awareness to effect needed policy changes.

Published

2021

3. Critical slowing down as early warning for the onset of collapse in mutualistic communities.

Author

Dakos, Vasilis and Bascompte, Jordi

Subjects

*BIOTIC communities, *ANIMAL defenses, *BIOLOGICAL extinction, *SPECIES, *GLOBAL environmental change, RISK factors

Abstract

Tipping points are crossed when small changes in external conditions cause abrupt unexpected responses in the current state of a system. In the case of ecological communities under stress, the risk of approaching a tipping point is unknown, but its stakes are high. Here, we test recently developed critical slowing-down indicators as early-warning signals for detecting the proximity to a potential tipping point in structurally complex ecological communities. We use the structure of 79 empirical mutualistic networks to simulate a scenario of gradual environmental change that leads to an abrupt first extinction event followed by a sequence of species losses until the point of complete community collapse. We find that critical slowing-down indicators derived from time series of biomasses measured at the species and community level signal the proximity to the onset of community collapse. In particular, we identify specialist species as likely the best-indicator species for monitoring the proximity of a community to collapse. In addition, trends in slowing-down indicators are strongly correlated to the timing of species extinctions. This correlation offers a promising way for mapping species resilience and ranking species risk to extinction in a given community. Our findings pave the road for combining theory on tipping points with patterns of network structure that might prove useful for the management of a broad class of ecological networks under global environmental change. [ABSTRACT FROM AUTHOR]

Published

2014

4. Complementary sex determination substantially increases extinction proneness of haplodiploid populations.

Author

Zayed, Amro and Packer, Laurence

Subjects

*GENETIC sex determination, *GENETIC load, *HAPLODIPLOIDY, *PLOIDY, *HYMENOPTERA, *INSECT societies, SEX differences (Biology)

Abstract

The role of genetic factors in extinction is firmly established for diploid organisms, but haplodiploids have been considered immune to genetic load impacts because deleterious alleles are readily purged in haploid males. However, we show that singlelocus complementary sex determination ancestral to the haplodipbid Hymenoptera (ants, bees, and wasps) imposes a substantial genetic load through homozygosity at the sex locus that results in the production of inviable or sterile dipboid males. Using stochastic modeling, we have discovered that dipboid male production (DMP) can initiate a rapid and previously uncharacterized extinction vortex. The extinction rate in hapbodipboid populations with DMP is an order of magnitude greater than in its absence under realistic but conservative demographic parameter values. Furthermore, DMP alone can elevate the base extinction risk in haplodiploids by over an order of magnitude higher than that caused by inbreeding depression in threatened diploids. Thus, contrary to previous expectations, hapbodipboids are more, rather than less, prone to extinction for genetic reasons. Our findings necessitate a fundamental shift in approaches to the conservation and population biology of these ecologically and economically crucial insects. [ABSTRACT FROM AUTHOR]

Published

2005

5. Wild bees enhance honey bees' pollination of hybrid sunflower

Author

Sarah S. Greenleaf and Claire Kremen

Subjects

Crops, Agricultural, Conservation of Natural Resources, Multidisciplinary, Apiary, Pollination, Chimera, Pollination management, Honey bee, Honey, Biology, Bees, Biological Sciences, Pollinator decline, Ecosystem services, Worker bee, Agronomy, Pollinator, Animals, Helianthus, Pollen

Abstract

Pollinators are required for producing 15–30% of the human food supply, and farmers rely on managed honey bees throughout the world to provide these services. Yet honey bees are not always the most efficient pollinators of all crops and are declining in various parts of the world. Crop pollination shortages are becoming increasingly common. We found that behavioral interactions between wild and honey bees increase the pollination efficiency of honey bees on hybrid sunflower up to 5-fold, effectively doubling honey bee pollination services on the average field. These indirect contributions caused by interspecific interactions between wild and honey bees were more than five times more important than the contributions wild bees make to sunflower pollination directly. Both proximity to natural habitat and crop planting practices were significantly correlated with pollination services provided directly and indirectly by wild bees. Our results suggest that conserving wild habitat at the landscape scale and altering selected farm management techniques could increase hybrid sunflower production. These findings also demonstrate the economic importance of interspecific interactions for ecosystem services and suggest that protecting wild bee populations can help buffer the human food supply from honey bee shortages.

Published

2006