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Remote Sensing of Vineyard FPAR, with Implications for Irrigation Scheduling

机译：葡萄园FpaR的遥感，对灌溉调度的影响

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Normalized difference vegetation index (NDVI) data, acquired at two-meter resolution by an airborne ADAR System 5500, were compared with fraction of photosynthetically active radiation (FPAR) absorbed by commercial vineyards in Napa Valley, California. An empirical line correction was used to transform image digital counts to surface reflectance. "Apparent" NDVI (generated from digital counts) and "corrected" NDVI (from reflectance) were both strongly related to FPAR of range 0.14-0.50 (both r(sup 2) = 0.97, P < 0.01). By suppressing noise, corrected NDVI should form a more spatially and temporally stable relationship with FPAR, reducing the need for repeated field support. Study results suggest the possibility of using optical remote sensing to monitor the transpiration crop coefficient, thus providing an enhanced spatial resolution component to crop water budget calculations and irrigation management.

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作者
Johnson, Lee F.; Scholasch, Thibaut;
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年度 2004
页码 1-10
总页数 10
原文格式 PDF
正文语种 eng
中图分类工业技术;
关键词
Vineyards; Remote sensing; Normalized difference vegetation index; Photosynthetically active radiation; Farm crops; Irrigation; Surface properties; Spatial resolution; Spectral reflectance;

机译：葡萄园;遥感;归一化差异植被指数;光合有效辐射;农作物;灌溉;表面特性;空间分辨率;光谱反射率;

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专利

1. Calibration and validation of a remote sensing algorithm to estimate energy balance components and daily actual evapotranspiration over a drip-irrigated Merlot vineyard. (Special Issue: Advances in site-specific irrigation management and grapevine water requirements.) [J] . Poblete-Echeverria C., Ortega-Farias S. Irrigation Science . 2012,第6期

机译：校准和验证遥感算法，以估计滴灌梅洛葡萄园的能量平衡成分和每日实际蒸散量。（特刊：针对特定地点的灌溉管理和葡萄需水量的进步。）
2. Data assimilation of high-resolution thermal and radar remote sensing retrievals for soil moisture monitoring in a drip-irrigated vineyard [J] . Remote Sensing of Environment: An Interdisciplinary Journal . 2020,第期

机译：滴灌葡萄园土壤水分监测高分辨率热敏和雷达遥感检索的数据同化
3. Evapotranspiration estimates derived using thermal-based satellite remote sensing and data fusion for irrigation management in California vineyards [J] . Knipper Kyle R., Kustas William P., Anderson Martha C., Irrigation Science . 2019,第3期

机译：在加利福尼亚州葡萄园中使用基于热基卫星遥感和数据融合来源的蒸发估算
4. Automated detection of malfunctions in drip-irrigation systems using thermal remote sensing in vineyards and olive orchards [C] . A. Dag, Y. Cohen, V. Alchanatis, European Conference on Precision Agriculture . 2015

机译：在葡萄园和橄榄果园中使用热遥感的滴灌系统中的故障自动检测
5. Evaporation from irrigated crops: Its measurement, modeling and estimation from remotely sensed data. [D] . Garatuza-Payan, Jaime. 1999

机译：灌溉农作物的蒸发：根据遥感数据进行的测量，建模和估算。
6. Remotely sensed high resolution irrigated area mapping in India for 2000 to 2015 [O] . Anukesh Krishnankutty Ambika, Brian Wardlow, Vimal Mishra 2016

机译：2000年至2015年印度的遥感高分辨率灌溉区域图
7. Evapotranspiration estimates derived using thermal-based satellite remote sensing and data fusion for irrigation management in California vineyards [O] . Kyle R. Knipper, William P. Kustas, Martha C. Anderson, 2018

机译：在加州葡萄园中使用热基卫星遥感和数据融合来源的蒸发估计估算

Remote Sensing of Vineyard FPAR, with Implications for Irrigation Scheduling

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