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== Farm Output in the United States ==
== Farm Output in the United States ==
Through data analysis and graphing, we can observe the farm output indices and quantities for different states and type of produce from farms. It's valuable to understand the trends of these items due to climate change, so we can gather insights for crop outputs as a physical risk.
[[File:LineGraphsoverSelectedStates.png|thumb|centre|The line graph above shows the farm output indices over time for California (CA), Texas (TX), Illinois (IL), and New York (NY). This visualization allows us to observe trends and changes in agricultural productivity in these states, which might be influenced by various factors including climate change.]]
[[File:LineGraphsoverSelectedStates.png|thumb|centre|The line graph above shows the farm output indices over time for California (CA), Texas (TX), Illinois (IL), and New York (NY). This visualization allows us to observe trends and changes in agricultural productivity in these states, which might be influenced by various factors including climate change.]]


[[File:FarmOutputQuantities.png|thumb|centre|The line graph above shows the farm output indices over time for California (CA), Texas (TX), Illinois (IL), and New York (NY). This visualization allows us to observe trends and changes in agricultural productivity in these states, which might be influenced by various factors including climate change.]]
[[File:Screen Shot 2024-01-08 at 11.12.52 PM.png|thumb|centre|The line graph above shows the farm output quantities over time for livestock and other agricultural products. This visualization allows us to observe trends and changes in agricultural productivity in these states, which might be influenced by various factors including climate change.]]
 
== Sources of Farm Growth ==
Looking at this table, we can gain insight into different factors that influence farm growth, climate-change related or not.
[[File:Screen Shot 2024-01-10 at 10.25.34 PM.png|thumb|centre|Average annual growth rates in the US Farm Sector due to different sources of growth. Conducted between 1948-2019 (USDA).]]
 
== References ==
[https://www.ers.usda.gov/data-products/agricultural-productivity-in-the-u-s/agricultural-productivity-in-the-u-s/#CSV%20Format%20of%20National%20Data USDA ERS]

Latest revision as of 06:30, 11 January 2024

How Does Climate Change Affect Crops?

Climate change poses a significant physical risk to agriculture and crop production worldwide. As temperatures rise and weather patterns become more unpredictable, agricultural systems are increasingly vulnerable to a range of climate-related challenges. Higher temperatures can lead to heat stress in crops, affecting their growth and yield. Changes in precipitation patterns, including more frequent and severe droughts or floods, can disrupt planting and harvest seasons, reduce crop quality, and impact food security. Additionally, the increased occurrence of extreme weather events such as storms and wildfires can cause direct damage to agricultural infrastructure and disrupt supply chains. Changes in temperature and humidity can also create favorable conditions for the proliferation of pests and diseases, posing a direct threat to crops. Furthermore, shifts in climate can alter the geographic distribution of crops, impacting the livelihoods of farmers and their communities. The physical risks associated with climate change in agriculture underscore the urgency of implementing adaptive and resilient agricultural practices, investing in climate-smart technologies, and developing strategies to safeguard global food production in a changing climate.

Farm Output in the United States

Through data analysis and graphing, we can observe the farm output indices and quantities for different states and type of produce from farms. It's valuable to understand the trends of these items due to climate change, so we can gather insights for crop outputs as a physical risk.

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The line graph above shows the farm output indices over time for California (CA), Texas (TX), Illinois (IL), and New York (NY). This visualization allows us to observe trends and changes in agricultural productivity in these states, which might be influenced by various factors including climate change.
Error creating thumbnail: File missing
The line graph above shows the farm output quantities over time for livestock and other agricultural products. This visualization allows us to observe trends and changes in agricultural productivity in these states, which might be influenced by various factors including climate change.

Sources of Farm Growth

Looking at this table, we can gain insight into different factors that influence farm growth, climate-change related or not.

Error creating thumbnail: File missing
Average annual growth rates in the US Farm Sector due to different sources of growth. Conducted between 1948-2019 (USDA).

References

USDA ERS