|Lidar remote sensing for ecosystem studies: Lidar, an emerging remote sensing technology that directly measures the three-dimensional distribution of plant canopies, can …|
MA Lefsky, WB Cohen, GG Parker, DJ Harding
BioScience 52 (1), 19-30, 2002
|Lidar remote sensing of the canopy structure and biophysical properties of Douglas-fir western hemlock forests|
MA Lefsky, WB Cohen, SA Acker, GG Parker, TA Spies, D Harding
Remote sensing of environment 70 (3), 339-361, 1999
|Throughfall and stemflow in the forest nutrient cycle|
Advances in ecological research 13, 57-133, 1983
|Surface lidar remote sensing of basal area and biomass in deciduous forests of eastern Maryland, USA|
MA Lefsky, D Harding, WB Cohen, G Parker, HH Shugart
Remote sensing of Environment 67 (1), 83-98, 1999
|Structure and microclimate of forest canopies.|
Forest canopies., 73-106, 1995
|Lidar remote sensing of above‐ground biomass in three biomes|
MA Lefsky, WB Cohen, DJ Harding, GG Parker, SA Acker, ST Gower
Global ecology and biogeography 11 (5), 393-399, 2002
|Laser altimeter canopy height profiles: Methods and validation for closed-canopy, broadleaf forests|
DJ Harding, MA Lefsky, GG Parker, JB Blair
Remote Sensing of Environment 76 (3), 283-297, 2001
|CTFS‐Forest GEO: a worldwide network monitoring forests in an era of global change|
KJ Anderson‐Teixeira, SJ Davies, AC Bennett, EB Gonzalez‐Akre, ...
Global change biology 21 (2), 528-549, 2015
|Evidence for a recent increase in forest growth|
SM McMahon, GG Parker, DR Miller
Proceedings of the National Academy of Sciences 107 (8), 3611-3615, 2010
|Remote sensing of vegetation 3‐D structure for biodiversity and habitat: Review and implications for lidar and radar spaceborne missions|
KM Bergen, SJ Goetz, RO Dubayah, GM Henebry, CT Hunsaker, ...
Journal of Geophysical Research: Biogeosciences 114 (G2), 2009
|Long-term ecological studies: an illustrated account of their design, operation, and importance to ecology|
D Strayer, JS Glitzenstein, CG Jones, J Kolasa, GE Likens, MJ McDonnell, ...
Occasional publication of the Institute of Ecosystem Studies 2 (9), 1986
|Scale‐dependent relationships between tree species richness and ecosystem function in forests|
RA Chisholm, HC Muller‐Landau, K Abdul Rahman, DP Bebber, Y Bin, ...
Journal of Ecology 101 (5), 1214-1224, 2013
|A portable LIDAR system for rapid determination of forest canopy structure|
GG Parker, DJ Harding, ML Berger
Journal of Applied Ecology 41 (4), 755-767, 2004
|Canopy light transmittance in a chronosequence of mixed-species deciduous forests|
MJ Brown, GG Parker
Canadian Journal of Forest Research 24 (8), 1694-1703, 1994
|Three-dimensional structure of an old-growth Pseudotsuga-Tsuga canopy and its implications for radiation balance, microclimate, and gas exchange|
GG Parker, ME Harmon, MA Lefsky, J Chen, R Van Pelt, SB Weis, ...
Ecosystems 7 (5), 440-453, 2004
|Forest canopy stratification—is it useful?|
GG Parker, MJ Brown
The American Naturalist 155 (4), 473-484, 2000
|The reflection of deciduous forest communities in leaf litter: implications for autochthonous litter assemblages from the fossil record|
RJ Burnham, SL Wing, GG Parker
Paleobiology, 30-49, 1992
|Plant diversity increases with the strength of negative density dependence at the global scale|
JA LaManna, SA Mangan, A Alonso, NA Bourg, WY Brockelman, ...
Science 356 (6345), 1389-1392, 2017
|Global importance of large‐diameter trees|
JA Lutz, TJ Furniss, DJ Johnson, SJ Davies, D Allen, A Alonso, ...
Global Ecology and Biogeography 27 (7), 849-864, 2018
|The canopy surface and stand development: assessing forest canopy structure and complexity with near-surface altimetry|
GG Parker, ME Russ
Forest Ecology and Management 189 (1-3), 307-315, 2004