GC21C-0546:
Assessing the Factors of Regional Growth Decline of Sugar Maple

Tuesday, 16 December 2014
Daniel A Bishop1,2, Colin M Beier2, Neil Pederson1, Gregory Brad Lawrence3, John C Stella2 and Timothy J Sullivan4, (1)Lamont -Doherty Earth Observatory, Palisades, NY, United States, (2)SUNY College of Environmental Science and Forestry, Forest and Natural Resources Management, Syracuse, NY, United States, (3)USGS, Troy, NY, United States, (4)E&S Environmental Chemistry, Corvallis, OR, United States
Abstract:
Sugar maple (Acer saccharum Marsh) is among the most ecologically, economically and culturally important trees in North America, but has experienced a decline disease across much of its range. We investigated the climatic and edaphic factors associated with A. saccharum growth in the Adirondack Mountains (USA) using a well-replicated tree-ring network incorporating a range of soil fertility (base cation availability). We found that nearly 3 in 4 A. saccharum trees exhibited declining growth rates during the last several decades, regardless of tree age or size. Although diameter growth was consistently higher on base-rich soils, the negative trends in growth were largely consistent across the soil chemistry gradient. Sensitivity of sugar maple growth to climatic variability was overall weaker than expected, but were also non-stationary during the 20th century. We observed increasingly positive responses to late-winter precipitation, increasingly negative responses to growing season temperatures, and strong positive responses to moisture availability during the 1960s drought that became much weaker during the recent pluvial. Further study is needed of these factors and their interactions as potential mechanisms for sugar maple growth decline.