Remote sensing of net primary production in boreal forest stands
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[1] L. H. Allen,et al. Photosynthesis Under Field Conditions. VI. Solar Radiation Balance and Photosynthetic Efficiency1 , 1962 .
[2] T. C. Winter,et al. SP-11 Glacial and Vegetational History of Northeastern Minnesota , 1969 .
[3] D. F. Grigal,et al. Quantitative relationships among vegetation and soil classifications from northeastern Minnesota , 1970 .
[4] C. Jordan. Productivity of a Tropical Forest and its Relation to a World Pattern of Energy Storage , 1971 .
[5] J. Monteith. SOLAR RADIATION AND PRODUCTIVITY IN TROPICAL ECOSYSTEMS , 1972 .
[6] J. Rowe,et al. Forest regions of Canada. , 1972 .
[7] M. L. Heinselman. Fire in the Virgin Forests of the Boundary Waters Canoe Area, Minnesota , 1973, Quaternary Research.
[8] John L. Monteith,et al. Vegetation and the atmosphere , 1975 .
[9] R. K. Scott,et al. Barley and its Environment. III. Carbon Budget of the Stand , 1975 .
[10] Vegetation, site, and fire relationships within the area of the Little Sioux fire, northeastern Minnesota , 1976 .
[11] Jon C. Allen,et al. A Modified Sine Wave Method for Calculating Degree Days , 1976 .
[12] R. K. Hermann,et al. Root biomass studies in forest ecosystems , 1977, Pedobiologia.
[13] J. Monteith. Climate and the efficiency of crop production in Britain , 1977 .
[14] Donald A. Perala,et al. Biomass and nutrient distribution in aspen, pine, and spruce stands on the same soil type in Minnesota , 1978 .
[15] P. F. Lambeck,et al. Feature extraction applied to agricultural crops as seen by LANDSAT , 1979 .
[16] C. Richardson,et al. Biomass and net annual primary production regressions for Populus grandidentata on three sites in northern lower Michigan. , 1980 .
[17] H. Smith,et al. Plants and the daylight spectrum. , 1981 .
[18] Ghassem R. Asrar,et al. Assessing solar energy and water use efficiencies in winter wheat: A case study , 1982 .
[19] C. Tucker,et al. Satellite remote sensing of total dry matter production in the Senegalese Sahel , 1983 .
[20] Leslie A. Viereck,et al. Productivity and nutrient cycling in taiga forest ecosystems , 1983 .
[21] M. Steven,et al. Estimation of sugar beet productivity from reflection in the red and infrared spectral bands , 1983 .
[22] Leslie A. Viereck,et al. Vegetation, soils, and forest productivity in selected forest types in interior Alaska , 1983 .
[23] Richard H. Waring,et al. Estimating Forest Growth and Efficiency in Relation to Canopy Leaf Area , 1983 .
[24] G. Badhwar,et al. Classification of corn and soybeans using multitemporal thematic mapper data , 1984 .
[25] John S. Campbell,et al. Biomass and growth of Populus tremuloides in northeastern Alberta: Estimates using hierarchy in tree size , 1984 .
[26] G. Badhwar,et al. Use of LANDSAT-derived profile features for spring small-grains classification , 1984 .
[27] J. Bockheim,et al. Distribution and Cycling of Nutrients in an Aspen‐Mixed‐Hardwood‐Spodosol Ecosystem in Northern Wisconsin , 1984 .
[28] Ghassem R. Asrar,et al. Estimation of total above-ground phytomass production using remotely sensed data , 1985 .
[29] P. Sellers. Canopy reflectance, photosynthesis and transpiration , 1985 .
[30] B. Hicks,et al. The Forest-Atmosphere Interaction , 1985 .
[31] Measurements of Turbulent Heat and CO2 Exchange Over Forests from Aircraft , 1985 .
[32] E. Crist. A TM Tasseled Cap equivalent transformation for reflectance factor data , 1985 .
[33] Gautam Badhwar,et al. Spectral Characterization of Biophysical Characterstics in a Boreal Forest: Relationship between Thematic Mapper Band Reflectance and Leaf Area Index for Aspen , 1986, IEEE Transactions on Geoscience and Remote Sensing.
[34] D. Baldocchi,et al. Eddy fluxes of CO2, water vapor, and sensible heat over a deciduous forest , 1986 .
[35] C. Tucker,et al. Satellite remote sensing of rangelands in Botswana II. NOAA AVHRR and herbaceous vegetation , 1986 .
[36] Joe Landsberg,et al. Physiological ecology of forest production , 1986 .
[37] G. Asrar,et al. Light Interception and Leaf Area Estimates from Measurements of Grass Canopy Reflectance , 1986, IEEE Transactions on Geoscience and Remote Sensing.
[38] Bhaskar J. Choudhury,et al. Relationships between vegetation indices, radiation absorption, and net photosynthesis evaluated by a sensitivity analysis , 1987 .
[39] D. Baldocchi,et al. [Effects of vegetation on river flow: a review]. , 1987 .
[40] J. Bockheim,et al. Below-ground biomass of 10-, 20-, and 32-year-old , 1987, Pedobiologia.
[41] W. Post,et al. Successional changes in nitrogen availability as a potential factor contributing to spruce declines in boreal North America , 1987 .
[42] Inez Y. Fung,et al. Boreal forests and atmosphere–biosphere exchange of carbon dioxide , 1987, Nature.
[43] W. Parton,et al. Analysis of factors controlling soil organic matter levels in Great Plains grasslands , 1987 .
[44] M. Cannell,et al. Radiation Interception and Productivity of Willow , 1987 .
[45] P. Sellers. Canopy reflectance, photosynthesis, and transpiration. II. the role of biophysics in the linearity of their interdependence , 1987 .
[46] C. Green,et al. Nitrogen nutrition and wheat growth in relation to absorbed solar radiation , 1987 .
[47] R. Reginato,et al. Interception and use efficiency of light in winter wheat under different nitrogen regimes , 1988 .
[48] Craig Loehle,et al. Tree life history strategies: the role of defenses , 1988 .
[49] John Pastor,et al. Response of northern forests to CO2-induced climate change , 1988, Nature.
[50] L. Wright,et al. Comparisons among Populus clones and intensive culture conditions, using an energy-conservation model , 1989 .
[51] Knute J. Nadelhoffer,et al. Belowground Carbon Allocation in Forest Ecosystems: Global Trends , 1989 .
[52] S. Macdonald,et al. Growth and foliar nutrient status of black spruce and tamarack in relation to depth of water table in some Alberta peatlands , 1990 .
[53] I. Fung,et al. Observational Contrains on the Global Atmospheric Co2 Budget , 1990, Science.
[54] Frédéric Baret,et al. Spectral estimates of the absorbed photosynthetically active radiation and light-use efficiency of a winter wheat crop subjected to nitrogen and water deficiencies† , 1990 .
[55] D. Jacob,et al. Atmosphere‐biosphere exchange of CO2 and O3 in the central Amazon Forest , 1990 .
[56] M. Turner,et al. How Increasing CO2 and Climate Change Affect Forests , 1990 .
[57] Christopher B. Field,et al. 2 – Ecological Scaling of Carbon Gain to Stress and Resource Availability , 1991 .
[58] Paul J. Curran,et al. Dynamics of Canopy Structure and Light Interception in Pinus Elliottii Stands, North Florida , 1991 .
[59] Alan H. Strahler,et al. Geometric-Optical Modeling of Forests as Remotely-Sensed Scenes Composed of Three-Dimensional, Discrete Objects , 1991 .
[60] S. Prince. A model of regional primary production for use with coarse resolution satellite data , 1991 .
[61] S. Goetz,et al. Large-Scale Patterns of Forest Succession as Determined by Remote Sensing , 1991 .
[62] J. Saldarriaga,et al. Solar energy conversion efficiencies during succession of a tropical rain forest in Amazonia , 1991, Journal of Tropical Ecology.
[63] Gordon B. Bonan,et al. Atmosphere-biosphere exchange of carbon dioxide in boreal forests , 1991 .
[64] Ranga B. Myneni,et al. Photon-Vegetation Interactions , 1991, Springer Berlin Heidelberg.
[65] S. Goetz,et al. Radiometric rectification - Toward a common radiometric response among multidate, multisensor images , 1991 .
[66] A. H. Feiveson,et al. Statistical error analysis for biomass density and leaf area index estimation , 1991 .
[67] Scott J. Goetz,et al. Biophysical, morphological, canopy optical property, and productivity data from the Superior National Forest , 1992 .
[68] C. Field,et al. A reanalysis using improved leaf models and a new canopy integration scheme , 1992 .
[69] Richard H. Waring,et al. Maintenance Respiration and Stand Development in a Subalpine Lodgepole Pine Forest , 1992 .
[70] Ranga B. Myneni,et al. Remote sensing of solar radiation absorbed and reflected by vegetated land surfaces , 1992, IEEE Trans. Geosci. Remote. Sens..
[71] Agnès Bégué. Modeling hemispherical and directional radiative fluxes in regular-clumped canopies , 1992 .
[72] Satellite Estimation of the Global Distribution and Interannual Variability of Photosynthetically Active Radiation. , 1992 .
[73] A. McGuire,et al. Interactions between carbon and nitrogen dynamics in estimating net primary productivity for potential vegetation in North America , 1992 .
[74] C. Daughtry,et al. Spectral estimates of absorbed radiation and phytomass production in corn and soybean canopies , 1992 .
[75] P. Reich,et al. Leaf Life‐Span in Relation to Leaf, Plant, and Stand Characteristics among Diverse Ecosystems , 1992 .
[76] H. Lambers,et al. Inherent Variation in Growth Rate Between Higher Plants: A Search for Physiological Causes and Ecological Consequences , 1992 .
[77] S. Running,et al. Simulated dry matter yields for aspen and spruce stands in the North American boreal forest , 1992 .
[78] S. Goward,et al. Vegetation canopy PAR absorptance and the normalized difference vegetation index - An assessment using the SAIL model , 1992 .
[79] S. Goetz,et al. Satellite remote sensing of surface energy balance : success, failures, and unresolved issues in FIFE , 1992 .
[80] Harold A. Mooney,et al. Responses of Plants to Multiple Stresses , 1993 .
[81] G. Bonan. Physiological controls of the carbon balance of boreal forest ecosystems , 1993 .
[82] Stomatal conductance in a northern temperate deciduous forest : temporal and spatial patterns , 1993 .
[83] S. Running,et al. 8 – Generalization of a Forest Ecosystem Process Model for Other Biomes, BIOME-BGC, and an Application for Global-Scale Models , 1993 .
[84] Gordon B. Bonan,et al. Importance of leaf area index and forest type when estimating photosynthesis in boreal forests , 1993 .
[85] J. Randerson,et al. Terrestrial ecosystem production: A process model based on global satellite and surface data , 1993 .
[86] F. Stuart Chapin,et al. 16 – Functional Role of Growth Forms in Ecosystem and Global Processes , 1993 .
[87] A. McGuire,et al. Global climate change and terrestrial net primary production , 1993, Nature.
[88] Gérard Dedieu,et al. Methodology for the estimation of terrestrial net primary production from remotely sensed data , 1994 .
[89] Richard H. Waring,et al. Ecological Remote Sensing at OTTER: Satellite Macroscale Observations , 1994 .
[90] Richard H. Waring,et al. Environmental Limits on Net Primary Production and Light‐Use Efficiency Across the Oregon Transect , 1994 .