Satellite‐based evidence for shrub and graminoid tundra expansion in northern Quebec from 1986 to 2010 |
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| Authors: | kelly M. McManus Douglas C. Morton Jeffrey G. Masek Dongdong Wang Joseph O. Sexton Jyoteshwar R. Nagol Pascale Ropars Stéphane Boudreau |
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| Affiliation: | 1. Environmental Earth System Science, Stanford University, 260 Panama St., Stanford, CA 94305;2. Biospheric Sciences Laboratory, NASA Goddard Space Flight Center, Greenbelt, MD 20771;3. Department of Geographical Sciences, 2181 LeFrak Hall, University of Maryland, , College Park, MD 20742, USA;4. Département de biologie, Centre d'études nordiques, Université Laval, Pavillon Alexandre‐Vachon, 1045, av. de la Médecine, Local 3058, QC G1V 0A6, Canada |
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| Abstract: | Global vegetation models predict rapid poleward migration of tundra and boreal forest vegetation in response to climate warming. Local plot and air‐photo studies have documented recent changes in high‐latitude vegetation composition and structure, consistent with warming trends. To bridge these two scales of inference, we analyzed a 24‐year (1986–2010) Landsat time series in a latitudinal transect across the boreal forest‐tundra biome boundary in northern Quebec province, Canada. This region has experienced rapid warming during both winter and summer months during the last 40 years. Using a per‐pixel (30 m) trend analysis, 30% of the observable (cloud‐free) land area experienced a significant (P < 0.05) positive trend in the Normalized Difference Vegetation Index (NDVI). However, greening trends were not evenly split among cover types. Low shrub and graminoid tundra contributed preferentially to the greening trend, while forested areas were less likely to show significant trends in NDVI. These trends reflect increasing leaf area, rather than an increase in growing season length, because Landsat data were restricted to peak‐summer conditions. The average NDVI trend (0.007 yr?1) corresponds to a leaf‐area index (LAI) increase of ~0.6 based on the regional relationship between LAI and NDVI from the Moderate Resolution Spectroradiometer. Across the entire transect, the area‐averaged LAI increase was ~0.2 during 1986–2010. A higher area‐averaged LAI change (~0.3) within the shrub‐tundra portion of the transect represents a 20–60% relative increase in LAI during the last two decades. Our Landsat‐based analysis subdivides the overall high‐latitude greening trend into changes in peak‐summer greenness by cover type. Different responses within and among shrub, graminoid, and tree‐dominated cover types in this study indicate important fine‐scale heterogeneity in vegetation growth. Although our findings are consistent with community shifts in low‐biomass vegetation types over multi‐decadal time scales, the response in tundra and forest ecosystems to recent warming was not uniform. |
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| Keywords: | Arctic ecosystems climate‐induced vegetation response Landsat remote sensing time‐series analysis |
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