Options for managing early-successional forest and shrubland bird habitats in the northeastern United States

• Published in: Forest ecology and management Vol. 185; no. 1; pp. 179 - 191
• Main Authors: DeGraaf, Richard M, Yamasaki, Mariko
• Format: Journal Article
• Language: English
• Published: Elsevier B.V 03.11.2003
• Subjects: Aves; birds; Castor canadensis; Disturbance-dependent species; Early-successional habitats; Even-age management; forest habitats; forest regeneration; forests; frost; Opening size; shrublands; Silvicultural systems; trees; wind; USA, Northeast; Disturbance-dependent species; Silvicultural systems; Even-age management; Early-successional habitats; Opening size
• ISSN: 0378-1127; 1872-7042
• DOI: 10.1016/S0378-1127(03)00254-8

Historically, forests in the northeastern United States were disturbed by fire, wind, Native American agriculture, flooding, and beavers ( Castor canadensis). Of these, wind and beavers are now the only sources of natural disturbance. Most disturbance-dependent species, especially birds, are declining throughout the region whereas species affiliated with mature forests are generally increasing or maintaining populations. Disturbance must be simulated for conservation of early-successional species, many of which are habitat specialists compared to those associated with mature forests. Both the maintenance of old fields and forest regeneration are needed to conserve brushland species. Regenerating forest habitats are more ephemeral than other woody early-successional habitats. The types and amounts of early-successional habitats created depend on the silvicultural system used, patch size selected, time between regeneration cuts, and rotation age. We recommend that group selection and patch cuts should be at least 0.8 ha, and patches should be generated approximately every 10–15 years depending on site quality. Regeneration of intolerant and mid-tolerant tree species should be increased or maintained in managed stands. Also, frost pockets, unstocked, or poorly-stocked stands can provide opportunities to increase the proportion of early-successional habitats in managed forests.