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Climate change impacts on insect pollinators has largely focused on changes in abundance and range, yet pollination capacity also relies on ability to acquire, process and respond to information. We argue for the urgent need to focus on these largely overlooked processes by describing how insect sensory ecology and behaviour are affected by temperature and highlighting key knowledge gaps that should be addressed.
Climate policy adoption in one country increases the probability of adoption in neighbouring countries. Governments can thus support global climate action by adopting a leadership role in climate policy and do not need to worry about freeriding behaviour.
The industrial emissions of nitrous oxide, a potent greenhouse gas and stratospheric ozone-depleting substance, have increased since 2010. However, untapped abatement potential for industrial emissions currently exists through low-cost technologies.
International diffusion of carbon pricing policies can result in large global greenhouse gas emission reductions. Here, the authors quantify these benefits from diffusion that provide additional support for leadership in climate policy.
The potential effect of globally expanding organic farming on cropland soil organic carbon stocks has been estimated using a modelling approach. The results reveal that large-scale expansion of organic farming could lead to a reduction in soil organic carbon stocks unless appropriate farming practices, such as increased cover cropping, are adopted.
The authors simulated the impact of organic farming expansion on soil organic carbon. They found that soil organic carbon stock may be at risk of decline if the complete conversion to organic farming does not involve additional practices such as widespread cover cropping and residue recycling.
Better adaptation methods are needed in the face of rapid climate change. A pilot process for inclusive adaptation planning reveals that empowering citizens to identify climate impacts, and to discuss interventions to adapt to them, leads to better awareness of and preparedness for future climate change events.
Greenland is at the heart of climate research, yet the related perceptions of Greenland’s Indigenous population have long been overlooked. Findings based on two nationally representative surveys reveal a large gap between the scientific consensus and Kalaallit views.
Under current land-use regulation, carbon dioxide emissions from biofuel production exceed those from fossil diesel combustion. Therefore, international agreements need to ensure the effective and globally comprehensive protection of natural land before modern bioenergy can effectively contribute to achieving carbon neutrality.
Greenland is central to climate research and research now shows that Greenlanders are far more aware of a rapidly changing Arctic climate than of the underlying global causes. However, their willingness to harness new opportunities exceeds fear of climate change’s consequences.
Adjusting green public support programmes to green premiums can reduce public spending, yet this is challenged by uncertainty. Underfunding green technologies can delay the green transition, and overfunding them can increase transition costs. Both risks of under- and overfunding can be reduced using responsive adjustments.
Bioenergy has been widely viewed as an alternative for fossil fuels and an option for carbon dioxide removal, but there are doubts given the induced land-use changes. This study shows the importance of uniform regulation and comprehensive coverage of carbon-rich areas in reducing total emissions.
Increasing individual awareness could help communities better prepare for climate change. Here a pilot study using participatory system mapping finds that the process increases awareness and preparedness for climate risk, and identifies considerations for promoting citizen-led adaptation.
Warming affects forest soil denitrification and nitrogen losses. The authors show that temperature enhances nitrous oxide and dinitrogen but varies by soil; temperature sensitivities are similar across soils but are higher for dinitrogen, suggesting complete denitrification in a warmer climate.
Museum collections are a source for monitoring population changes at an evolutionary timescale. A comparative genomic study across time and space of populations of willow flycatchers (Empidonax traillii) reveals evidence of genetic responses to climate change through adaptation in genes associated with changing climatic conditions in southwestern North America.
Decades of deforestation and climate change have led to the southeastern Amazon becoming a carbon source region. Now, research shows that this carbon source region still sustains its own biomass production, but further degradation would decrease moisture recycling and amplify carbon losses to the atmosphere.
Genetic adaptation may be an important response to climate change, but limited examples of climate adaptation in wild populations exist. Comparing genetic data from historical bird specimens and contemporary individuals, the authors show shifts consistent with adaptation to climate change.
