This web page provides 10 recommendations for landowners on how they should manage their ash trees during Emerald Ash Borer and climate change. This includes physiological and silvicultural information on how to promote the survival of ash trees, in addition to why ash trees are important to save.
This EPA report describes how seasonal events in the US are impacted by climate change, and the implications of the effects on seasonality. The science behind seasonal events and how climate change can impact events are described in the main report, while the technical appendix describes the methods of evaluation and the system used to choose indicators.
Researchers created a model that predicts the probability of land-use change from forest to non-forest and carbon stocks across the US. Over 17 years, 3% of the study area shifted from forest to mixed or non-forest, with a higher probability of change in non-public forests than public forests, as well as areas closer to cities and coastal areas. This could be due to population growth and housing rates growth.
This article describes the monitoring of forest carbon in the Eastern US, with broader applications across the US, to compare forest land-use change and forest land cover change.
This article describes research on reforestation of cultivated lands and its effect on carbon sequestration in the US. It finds that soils store most of the carbon in ecosystems, and reforesting cultivated lands increases the carbon storage of topsoil. Carbon sequestration also doubles to triples in woody biomass after planting for at least 20 to 30 years.
This document analyzes the patterns of the carbon cycle of North America. Sectors such as agriculture and energy, as well as ecosystems such as forests and wetlands are assessed, in addition to the impact of human activity on the carbon cycle. Carbon cycling is reported for inland and coastal water, air, and land.
This web page describes how carbon integrates with land management and provides links to related topics.
This report details how the carbon cycle works in forest and grassland ecosystems. It also describes management activities that can increase carbon in these ecosystems.
This management guide describes 10 forest management practices that can increase short term carbon storage for hardwood forests in the Northeast US and has general applications across many forest types. These practices also improve forest resilience against climate change impacts. These practices were chosen independently of cost, but sources of funding for each practice are also described in the guide.
This publication describes the role of carbon within the forest, the impacts of various land uses on forest carbon and outlines common trade-offs landowners may experience when making informed decisions regarding their lands. This publication was co-created by the University of Massachusetts and University of Vermont and centers on New England regional forestlands, although concepts may apply generally to other areas of the United States.
