It encompasses lucid discussions on the impact of precision techniques on soil fertility, nutrient dynamics and crop productivity. This new book, Precision Farming: Soil Fertility and Productivity Aspects , highlights the application and impact of GPS techniques to regulate fertilizer supply based on soil nutrient distribution and yield goals set by farmers. It considers advances and examples from different agroecosystems from all continents. It will be highly useful to advanced-level students, professors, farmers, and those involved in agroindustries.
AgWired — Where in the World? Walthall, T. Gish, D. Timlin and K. Kung, Use of ground-penetrating radar and remotely sensed data to understand yield variability under drought conditions. Dux, D. Strickland and D. Ess, Generating field maps from data collected by speech recognition. Feiffer, P. Feiffer, R.
Leithold, J. Jasper and A. Link, Hydro n-sensor. Franke, J. Menz, E. Oerke and U. Rascher, Comparison of multi-and hyperspectral imaging data of leaf rust infected wheat plants. Shearer, S.
Higgins, D. Hancock and T. Stombaugh, Distribution pattern variability of granular VRT applicators. Marchant and N. Tillett, A system for plant scale husbandry. Stafford, J. Hubbard, S. Chen, K. Williams, J. Peterson and Y. Rubin, Environmental and agricultural applications of GPR.
Hummel, J. Sudduth and S. Hollinger, Soil moisture and organic matter prediction of surface and subsurface soils using a NIR sensor. Channells, N. Madhusudan Rao and D. Thiel, An embedded wireless sensor network at MHz for agricultural applications. Proceedings of SPIE. Johnson, C. Schafer and S. Young, Controlling agricultural machinery intelligently: Agricultural electronics and beyond. Kim, Y. Reid, Bi-directional effect on a multi-spectral imaging sensor for crop nitrogen assessment.
Kruger, G. Springer and W.
Lechner, Krutz, G. Schueller, Advanced engineering: Future directions for the agricultural and biological engineering professions. Aerial video and spatial data. Li, M. Wang and Q. Wang, Development and performance test of a portable soil EC detector. Bauer, Illinois agricultural experiment station. Circular, pp: Lowenberg-DeBoer, J.
The management time economics of on-the-go sensing for nitrogen application.
Lund, E. Chirsty and P.
Drummond, Applying soil electrical conductivity technology to precision agriculture. Paul, Minnesota, pp: Luo, X.
- Footsteps Out Of Darkness?
- Precision Farming.
- Precision farming : soil fertility and productivity aspects.
- ISBN 13: 9781926895444.
- Recetas sabrosas bajas en sal (Spanish Edition)?
- Precision agriculture - Wikipedia.
- Precision Farming: Soil Fertility and Productivity Aspects - K. R. Krishna - كتب Google.
Zang and Z. Zhou, Research progress in farming information acquisition technique for precision agriculture. Chinese Soc. Matthews, J. Some challenges for engineers in agriculture. Royal Agric. England, Miller, P. Paice, Patch spraying approaches to optimize the use of herbicides applied to arable crops.
Mondal, P. Tewari, P. Rao, R. Verma and M. Basu, Scope of precision agriculture in India. Morgan, C. Norman, R. Wolkowski, R. Schuler, B. Lowery and G. Morgan, Two approaches to mapping plant available water: EM measurements and inverse yield modeling. Myers, D. Kitchen, R. Miles and K.
SMART Fertilizer Management Software for Precision Agriculture
Sudduth, Estimation of a soil productivity index on calypan soils using soil electrical conductivity. Newman, S. Hummel, Soil penetration resistance with moisture correction. Pelletier, G.