Bagworm Current Day Forecast

Bagworm Six-Day Forecast

WHAT ARE PHENO FORECASTS?

Pheno Forecast maps predict key life cycle stages in invasive and pest species, to improve management efficacy.  For insect pest species, Pheno Forecasts are based on published growing degree day (GDD) thresholds for key points in species life cycles. These key points typically represent life cycle stages when management actions are most effective. These maps are updated daily and available 6 days in the future.

Help us improve these maps! Our Pheno Forecast map products are still in development, and we seek input on their performance in your area. Give your feedback at the bottom of the page.

SIGN UP FOR PHENO FORECAST NOTIFICATIONS!

Sign up to be notified by email approximately two weeks and again six days ahead of key growing degree day thresholds for species of interest at your location




EXPLORE THIS FORECAST

Learn more about this forecast using our visualization tool!

Asian Longhorned Beetle Current Day Forecast

Asian Longhorned Beetle Six-Day Forecast

WHAT ARE PHENO FORECASTS?

Pheno Forecast maps predict key life cycle stages in invasive and pest species, to improve management efficacy.  For insect pest species, Pheno Forecasts are based on published growing degree day (GDD) thresholds for key points in species life cycles. These key points typically represent life cycle stages when management actions are most effective. These maps are updated daily and available 6 days in the future.

Help us improve these maps! Our Pheno Forecast map products are still in development, and we seek input on their performance in your area. Give your feedback at the bottom of the page.

SIGN UP FOR PHENO FORECAST NOTIFICATIONS!

Sign up to be notified by email approximately two weeks and again six days ahead of key growing degree day thresholds for species of interest at your location




EXPLORE THIS FORECAST

Learn more about this forecast using our visualization tool!

Project Overview:


HOW TO PARTICIPATE

1. Join Nature's Notebook. If you haven't already, create a Nature's Notebook account. If you need more details on getting started, take the Observer Certification Course at learning.usanpn.org. You can set up a phenology monitoring site in your backyard or another location you frequent.

For further assistance: 

Apple Maggot Current Day Forecast

Apple Maggot Six-Day Forecast

WHAT ARE PHENO FORECASTS?

Pheno Forecast maps predict key life cycle stages in invasive and pest species, to improve management efficacy.  For insect pest species, Pheno Forecasts are based on published growing degree day (GDD) thresholds for key points in species life cycles. These key points typically represent life cycle stages when management actions are most effective. These maps are updated daily and available 6 days in the future.

Help us improve these maps! Our Pheno Forecast map products are still in development, and we seek input on their performance in your area. Give your feedback at the bottom of the page.

SIGN UP FOR PHENO FORECAST NOTIFICATIONS!

Sign up to be notified by email approximately two weeks and again six days ahead of key growing degree day thresholds for species of interest at your location




EXPLORE THIS FORECAST

Learn more about this forecast using our visualization tool!

Project Overview:


HOW TO PARTICIPATE:

1. Join Nature's Notebook. If you haven't already, create a Nature's Notebook account. If you need more details on getting started, take the Observer Certification Course available at learning.usanpn.org. You can also view this webinar recording that describes how to participate in the campaign.


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Urbanization causes later leaf fall in plants in cold regions, but not warm ones

Tue, Jan 25, 2022

The authors of a new study combined plant phenology observations contributed to Nature’s Notebook with two other phenology datasets and data products collected by satellite-borne sensors to estimate the timing of brown down of leaves (senescence) for 93 plant species across the United States and Europe. They then looked at the effects of human population density and temperature on the timing of leaf senescence and growing season length. The authors found that in cold regions, urbanization was associated with later leaf senescence and a longer growing season while in warm regions, urbanization was associated with earlier leaf senescence and a shorter growing season. As urbanization increases and temperatures warm further with climate change, we may see more areas that experience shorter growing season length.