Assessing biophysical variable parameters of bean crop with hyperspectral measurements

Recently high spectral resolution sensors have been developed, which allow new and more advanced applications in agriculture. Motivated by the increasing importance of hyperspectral remote sensing data, the need for research is important to define optimal wavebands to estimate biophysical parameters of crop. The use of narrow band vegetation indices (VI) derived from hyperspectral measurements acquired by a field spectrometer was evaluated to estimate bean (Phaseolus vulgaris L.) grain yield, plant height and leaf area index (LAI). Field canopy reflectance measurements were acquired at six bean growth stages over 48 plots with four water levels (179.5; 256.5; 357.5 and 406.2 mm) and tree nitrogen rates (0; 80 and 160 kg ha-1) and four replicates. The following VI was analyzed: OSNBR (optimum simple narrow-band reflectivity); NB_NDVI (narrow-band normalized difference vegetation index) and NDVI (normalized difference index). The vegetation indices investigated (OSNBR, NB_NDVI and NDVI) were efficient to estimate LAI, plant height and grain yield. During all crop development, the best correlations between biophysical variables and spectral variables were observed on V4 (the third trifoliolate leaves were unfolded in 50 % of plants) and R6 (plants developed first flowers in 50 % of plants) stages, according to the variable analyzed.

Assessing biophysical variable parameters of bean crop with hyperspectral measurements

Recently high spectral resolution sensors have been developed, which allow new and more advanced applications in agriculture. Motivated by the increasing importance of hyperspectral remote sensing data, the need for research is important to define optimal wavebands to estimate biophysical parameters of crop. The use of narrow band vegetation indices (VI) derived from hyperspectral measurements acquired by a field spectrometer was evaluated to estimate bean (Phaseolus vulgaris L.) grain yield, plant height and leaf area index (LAI). Field canopy reflectance measurements were acquired at six bean growth stages over 48 plots with four water levels (179.5; 256.5; 357.5 and 406.2 mm) and tree nitrogen rates (0; 80 and 160 kg ha-1) and four replicates. The following VI was analyzed: OSNBR (optimum simple narrow-band reflectivity); NB_NDVI (narrow-band normalized difference vegetation index) and NDVI (normalized difference index). The vegetation indices investigated (OSNBR, NB_NDVI and NDVI) were efficient to estimate LAI, plant height and grain yield. During all crop development, the best correlations between biophysical variables and spectral variables were observed on V4 (the third trifoliolate leaves were unfolded in 50 % of plants) and R6 (plants developed first flowers in 50 % of plants) stages, according to the variable analyzed.

Irrigation technology in South Africa and Kenya

This paper reviews various irrigation technologies in both South Africa and Kenya that enable improvements in their socio-economic conditions. The two countries are located in semi-arid areas that experience extreme fluctuations in the availability of rain water for plant growth. Population growth exceeds the ability to produce food in numerous countries around the world and the two countries are not an exception. This experiment examined the constraints that farmers face and the role of government and nongovernmental organization in the uptake of modern technologies for irrigation. Detailed mechanisms and options to secure sustainable irrigation which are economically viable are considered. Despite the higher production of cereals and grains, fruits, and flowers also thrive in the two countries. Total irrigated area, crops grown and irrigation systems used in the two countries are discussed.

Este trabalho aborda as tecnologias de irrigação utilizadas na África do Sul e no Quênia que possibilitam melhorias nas suas condições sócio-econômicas. Localizados em regiões semiáridas, esses países estão susceptíveis à extrema flutuação na disponibilidade de precipitação pluviométrica para o desenvolvimento das plantas. O crescimento populacional, como em muitos países, excede à capacidade de produção alimentar. Neste trabalho foram levantados as dificuldades que enfrentam os produtores rurais e o papel do governo e das instituições de pesquisa não governamentais na captação de tecnologias modernas para a irrigação. Detalhados mecanismos de execução e opções para garantir a irrigação sustentável e economicamente viável foram considerados. Apesar da maior produção de cereais e grãos, a fruticultura e a floricultura também prosperam nesses países. A área irrigada total, as culturas beneficiadas e os sistemas de irrigação usados nesses países também foram discutidos.

Irrigation technology in South Africa and Kenya

This paper reviews various irrigation technologies in both South Africa and Kenya that enable improvements in their socio-economic conditions. The two countries are located in semi-arid areas that experience extreme fluctuations in the availability of rain water for plant growth. Population growth exceeds the ability to produce food in numerous countries around the world and the two countries are not an exception. This experiment examined the constraints that farmers face and the role of government and nongovernmental organization in the uptake of modern technologies for irrigation. Detailed mechanisms and options to secure sustainable irrigation which are economically viable are considered. Despite the higher production of cereals and grains, fruits, and flowers also thrive in the two countries. Total irrigated area, crops grown and irrigation systems used in the two countries are discussed.

Este trabalho aborda as tecnologias de irrigação utilizadas na África do Sul e no Quênia que possibilitam melhorias nas suas condições sócio-econômicas. Localizados em regiões semiáridas, esses países estão susceptíveis à extrema flutuação na disponibilidade de precipitação pluviométrica para o desenvolvimento das plantas. O crescimento populacional, como em muitos países, excede à capacidade de produção alimentar. Neste trabalho foram levantados as dificuldades que enfrentam os produtores rurais e o papel do governo e das instituições de pesquisa não governamentais na captação de tecnologias modernas para a irrigação. Detalhados mecanismos de execução e opções para garantir a irrigação sustentável e economicamente viável foram considerados. Apesar da maior produção de cereais e grãos, a fruticultura e a floricultura também prosperam nesses países. A área irrigada total, as culturas beneficiadas e os sistemas de irrigação usados nesses países também foram discutidos.

Irrigation technology in South Africa and Kenya

This paper reviews various irrigation technologies in both South Africa and Kenya that enable improvements in their socio-economic conditions. The two countries are located in semi-arid areas that experience extreme fluctuations in the availability of rain water for plant growth. Population growth exceeds the ability to produce food in numerous countries around the world and the two countries are not an exception. This experiment examined the constraints that farmers face and the role of government and nongovernmental organization in the uptake of modern technologies for irrigation. Detailed mechanisms and options to secure sustainable irrigation which are economically viable are considered. Despite the higher production of cereals and grains, fruits, and flowers also thrive in the two countries. Total irrigated area, crops grown and irrigation systems used in the two countries are discussed.

Este trabalho aborda as tecnologias de irrigação utilizadas na África do Sul e no Quênia que possibilitam melhorias nas suas condições sócio-econômicas. Localizados em regiões semiáridas, esses países estão susceptíveis à extrema flutuação na disponibilidade de precipitação pluviométrica para o desenvolvimento das plantas. O crescimento populacional, como em muitos países, excede à capacidade de produção alimentar. Neste trabalho foram levantados as dificuldades que enfrentam os produtores rurais e o papel do governo e das instituições de pesquisa não governamentais na captação de tecnologias modernas para a irrigação. Detalhados mecanismos de execução e opções para garantir a irrigação sustentável e economicamente viável foram considerados. Apesar da maior produção de cereais e grãos, a fruticultura e a floricultura também prosperam nesses países. A área irrigada total, as culturas beneficiadas e os sistemas de irrigação usados nesses países também foram discutidos.