Interannual and spatial variation in maximum leaf area index of temperate deciduous stands
暂无分享,去创建一个
[1] H. L. Penman. Natural evaporation from open water, bare soil and grass , 1948, Proceedings of the Royal Society of London. Series A. Mathematical and Physical Sciences.
[2] T. Kira,et al. A QUANTITATIVE ANALYSIS OF PLANT FORM-THE PIPE MODEL THEORY : I.BASIC ANALYSES , 1964 .
[3] Richard H. Waring,et al. Leaf area differences associated with old-growth forest communities in the western Oregon Cascades , 1976 .
[4] Facteurs extrinsèques et intrinsèques de productivité dans quelques biogéocénoses forestières de Haute Belgique , 1976 .
[5] S. Running,et al. Leaf Area of Mature Northwestern Coniferous Forests: Relation to Site Water Balance , 1977 .
[6] T. Hinckley,et al. Foliar Weight and Area Related to Current Sapwood Area in Oak , 1979 .
[7] Henry L. Gholz,et al. Environmental Limits on Aboveground Net Primary Production, Leaf Area, and Biomass in Vegetation Zones of the Pacific Northwest , 1982 .
[8] P. G. Jarvis,et al. Productivity of temperate de-ciduous and evergreen forests , 1983 .
[9] Richard H. Waring,et al. Estimating Forest Growth and Efficiency in Relation to Canopy Leaf Area , 1983 .
[10] Harry T. Valentine,et al. Tree-growth models: Derivations employing the pipe-model theory , 1985 .
[11] Annikki Mäkelä,et al. Implications of the pipe model theory on dry matter partitioning and height growth in trees , 1985 .
[12] P. Gasson. Some Implications of Anatomical Variations in the Wood of Pedunculate Oak (Quercus Robur L.), Including Comparisons with Common Beech (Fagus Sylvatica L.) , 1987 .
[13] S. Running,et al. Relationship of thematic mapper simulator data to leaf area index , 1987 .
[14] Dr. W. E. Hillis. Heartwood and Tree Exudates , 1987, Springer Series in Wood Science.
[15] M. Bonneau. LE DIAGNOSTIC FOLIAIRE , 1988 .
[16] S. Running,et al. A general model of forest ecosystem processes for regional applications I. Hydrologic balance, canopy gas exchange and primary production processes , 1988 .
[17] Wayne T. Swank,et al. Streamflow Changes Associated with Forest Cutting, Species Conversions, and Natural Disturbances , 1988 .
[18] H. L. Allen,et al. Leaf Area, Stemwood Growth, and Nutrition Relationships in Loblolly Pine , 1988, Forest Science.
[19] Ramakrishna R. Nemani,et al. Mapping regional forest evapotranspiration and photosynthesis by coupling satellite data with ecosystem simulation , 1989 .
[20] J. Gaudillère. Leaf number, water stress and carbon nutrition effects on poplar leaf growth , 1989 .
[21] F. Smith,et al. Determinants of Stemwood Production in Pinus contorta var. Latifolia Forests: The Influence of Site Quality and Stand Structure , 1990 .
[22] Vegetation and climate , 1991 .
[23] J. Thornley,et al. A Transport-resistance Model of Forest Growth and Partitioning , 1991 .
[24] J. Norman,et al. Instrument for Indirect Measurement of Canopy Architecture , 1991 .
[25] K. Pregitzer,et al. Leaf area and foliar biomass relationships in northern hardwood forests located along an 800 km acid deposition gradient , 1991 .
[26] F. Ewers,et al. The hydraulic architecture of trees and other woody plants , 1991 .
[27] S. Gower,et al. CARBON DYNAMICS OF ROCKY MOUNTAIN DOUGLAS-FIR: INFLUENCE OF WATER AND NUTRIENT AVAILABILITY' , 1992 .
[28] Robert F. Wittwer,et al. Annual variation in needle fall of a loblolly pine stand in relation to climate and stand density , 1992 .
[29] R. Biston,et al. The use of near-infrared reflectance spectroscopy in litter decomposition studies , 1992 .
[30] Jennifer L. Dungan,et al. Seasonal LAI in slash pine estimated with landsat TM , 1992 .
[31] Gordon B. Bonan,et al. Importance of leaf area index and forest type when estimating photosynthesis in boreal forests , 1993 .
[32] P. W. West. Model of Above-ground Assimilate Partitioning and Growth of Individual Trees in Even-aged Forest Monoculture , 1993 .
[33] P. Gong,et al. Remote Sensing of Seasonal Leaf Area Index Across the Oregon Transect , 1994 .
[34] Hank A. Margolis,et al. The historical reconstruction of growth efficiency and its relationship to tree mortality in balsam fir ecosystems affected by spruce budworm , 1994 .
[36] L'humus sous toutes ses formes, première édition , 1995 .
[37] Jean-François Ponge,et al. Classification of forest humus forms: a French proposal , 1995 .
[38] La typologie des stations forestières du massif de Fontainebleau , 1995 .
[39] Denis Baize,et al. Guide pour la description des sols , 1995 .
[40] S. Jose,et al. Leaf Area-Productivity Relationships Among Mixed-Species Hardwood Forest Communities of the Central Hardwood Region , 1997 .
[41] D W Gilmore,et al. Crown architecture of Abies balsamea from four canopy positions. , 1997, Tree physiology.
[42] S. Gower,et al. Interrelationships among the edaphic and stand characteristics, leaf area index, and aboveground net primary production of upland forest ecosystems in north central Wisconsin , 1997 .
[43] L. Gu,et al. Crown structure and growth efficiency of red spruce in uneven-aged, mixed-species stands in Maine , 1998 .
[44] S. B. Jack,et al. Leaf area index and site water balance of loblolly pine (Pinus taeda L.) across a precipitation gradient in East Texas , 1998 .