Faith R. Kearns scite author profile

Abstract:California is a global leader in the agricultural sector and produces more than 400 types of commodities. The state produces over a third of the country's vegetables and two-thirds of its fruits and nuts. Despite being highly productive, current and future climate change poses many challenges to the agricultural sector. This paper provides a summary of the current state of knowledge on historical and future trends in climate and their impacts on California agriculture. We present a synthesis of climate change impacts on California agriculture in the context of: (1) historic trends and projected changes in temperature, precipitation, snowpack, heat waves, drought, and flood events; and (2) consequent impacts on crop yields, chill hours, pests and diseases, and agricultural vulnerability to climate risks. Finally, we highlight important findings and directions for future research and implementation. The detailed review presented in this paper provides sufficient evidence that the climate in California has changed significantly and is expected to continue changing in the future, and justifies the urgency and importance of enhancing the adaptive capacity of agriculture and reducing vulnerability to climate change. Since agriculture in California is very diverse and each crop responds to climate differently, climate adaptation research should be locally focused along with effective stakeholder engagement and systematic outreach efforts for effective adoption and implementation. The expected readership of this paper includes local stakeholders, researchers, state and national agencies, and international communities interested in learning about climate change and California's agriculture.

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Classification of the wildland–urban interface: A comparison of pixel- and object-based classifications using high-resolution aerial photography

Cleve

Kelly

Kearns

et al. 2008

Computers, Environment and Urban Systems

252

115

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Urban–wildland fires: how California and other regions of the US can learn from Australia

Stephens

Adams

Handmer

et al. 2009

Environ. Res. Lett.

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Most urban-wildland interface (UWI) fires in California and the other regions of the US are managed in a similar fashion: fire agencies anticipate the spread of fire, mandatory evacuations are ordered, and professional fire services move in and attempt to suppress the fires. This approach has not reduced building losses in California. Conversely, losses and the associated suite of environmental impacts, including reduced air quality, have dramatically increased over the last three decades. In contrast to California, Australia has developed a more effective 'Prepare, stay and defend, or leave early' policy. Using this approach, trained residents decide whether they will stay and actively defend their well-prepared property or leave early before a fire threatens them. Australian strategies have the distinct advantage of engaging and preparing those most affected by such fires: homeowners. Investing more in fire suppression alone, the common response after large UWI fires in California, will not reduce losses. US society has attempted to accommodate many of the natural hazards inherent to the landscapes that we inhabit; by examining the Australian model, we may approach a more sustainable coexistence with fire as well. However, it should be noted that some California communities are so vulnerable that a 'Prepare and leave early' strategy may be the only option.

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A method for the use of landscape metrics in freshwater research and management

et al. 2005

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Everything happens somewhere: using webGIS as a tool for sustainable natural resource management

Kearns¹,

Kelly²,

Tuxen³

2003

Frontiers in Ecology and the Environment

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Whether tracking invasive species, assessing water quality, or monitoring the spread of disease, comprehensive data collection is a key component of sustainable natural resource management. Increasingly, fostering community‐based monitoring is seen as a valuable way to augment data gathering and enhance public involvement in environmental management. However, growing quantities of data and increasing interest from the public and decision makers create technical data storage and access issues. Although not yet widely used in natural resource management, Web‐based Geographic Information Systems (webGIS), a hybrid of GIS and Internet technologies, are a promising option for entering and storing heterogeneous datasets, indexed by location, and making them widely available in a visual, dynamic, and interactive format. Although webGIS has the potential to increase public participation in environmental management, there are technical, institutional, and social challenges to its implementation and usage that need to be addressed, including differential Internet access, training, and privacy.

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Faith R. Kearns

Climate Change Trends and Impacts on California Agriculture: A Detailed Review

Classification of the wildland–urban interface: A comparison of pixel- and object-based classifications using high-resolution aerial photography

Urban–wildland fires: how California and other regions of the US can learn from Australia

A method for the use of landscape metrics in freshwater research and management

Everything happens somewhere: using webGIS as a tool for sustainable natural resource management

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