The Canopy Nitrogen VI is designed to provide a measure of nitrogen concentration of remotely sensed foliage. Nitrogen is an important component of chlorophyll and is generally present in high concentration in vegetation that is growing quickly. This VI uses reflectance measurements in the shortwave infrared range to measure relative amounts of nitrogen contained in vegetation canopies.
Normalized Difference Nitrogen Index
The Normalized Difference Nitrogen Index (NDNI) is designed to estimate the relative amounts of nitrogen contained in vegetation canopies. Reflectance at 1510 nm is largely determined by nitrogen concentration of leaves, as well as the overall foliage biomass of the canopy. Together, leaf nitrogen concentration and canopy foliar biomass are combined in the 1510 nm range to predict total canopy nitrogen content. This is compared to a reference reflectance at 1680 nm, which should contain a similar signal due to foliar biomass, but without the influence of nitrogen absorption. The NDNI is experimental, but it does show strong sensitivity to changing nitrogen status when the canopy is green (not senescent) and closed in architecture. Applications include precision agriculture, ecosystem analysis, and forest management. NDNI is defined by the following equation:
The value of this index ranges from 0 to 1. The common range for green vegetation is 0.02 to 0.1.
Serrano, L., J. Penuelas, and S.L. Ustin, 2002. Remote Sensing of Nitrogen and Lignin in Mediterranean Vegetation from AVIRIS Data: Decomposing Biochemical from Structural Signals. Remote Sensing of Environment 81:355-364.
Fourty, T., F. Baret, S. Jacquemoud, G. Schmuck, and J. Verdebout, 1996. Leaf Optical Properties with Explicit Description of Its Biochemical Composition: Direct and Inverse Problems. Remote Sensing of Environment 56:104-117.
This page has no user notes yet. Be the first one!