Forest [FAR1]

Legacy FAR1 strategy/approaches.

Taxonomy Machine Name
niacs_strategy
Taxonomy Alias
far1

Intense precipitation events will continue to become more frequent in New England and northern New York.

Submitted by sdhandler on

Heavy precipitation events have increased substantially in number and severity in the across the Northeast over the last century, and many models agree that this trend will continue over the next century. Extreme precipitation events could lead to more frequent or severe flooding and an increase in soil erosion. Monthly precipitation in the Northeast is projected to be about 1 inch greater for December through April by end of century (2070–2100) under a high emissions scenario.

Precipitation patterns will be altered, with projected increases in total annual precipitation distributed unevenly among colder months (more) and warmer months (less).

Submitted by sdhandler on

All global climate models agree that there will be changes in precipitation patterns across the assessment area, but there is large variability among projections of future precipitation. Most climate models project increases in annual precipitation. Seasonally, winter and spring are also generally projected to have increases in precipitation during the next century. Projections of summer and fall precipitation for this region vary, with many models projecting decreased precipitation or only very slight increases.

The growing season in New England and northern New York is generally expected to increase by 20 days or more by the end of the century, due to fewer days with a minimum temperatures below 32°F.

Submitted by sdhandler on

Evidence at both global and local scales indicates that growing seasons have been getting longer, and this trend is projected to become even more pronounced over the next century. Warmer temperatures will result in fewer days with minimum temperatures below 32°F and a shorter freeze-free season.

Temperatures in New England are projected to increase 5.3 to 9.1 °F by late century (2071-2100), with the greatest warming expected to occur during winter.

Submitted by sdhandler on

All global climate models project that temperatures in New England and northern New York will increase over the next century as a result of continued increases in atmospheric greenhouse gas concentrations.

Decreased precipitation and increased temperatures may interact to ultimately decrease soil moisture during summer and fall impacting the spruce/fir forest ecosystem.

Submitted by dshannon on

Although this ecosystem generally receives the highest rainfall in the Central Appalachians, a decrease in precipitation, combined with higher temperatures, may negatively impact spruce regeneration.

The geographic extent of the spruce/fir forest ecosystem is limited to a narrow range of environmental conditions.

Submitted by dshannon on

Suitable habitat for this ecosystem is already limited to the highest elevations in the Central Appalachians and the range of this ecosystem may contract as climate change forces species upward. This ecosystem is dependent on very moist conditions, and persists only in the coolest, wettest, and highest elevation sites in mountainous sections.