Hanan Fahad Al Harbi scite author profile

Submit Manuscript | http://medcraveonline.com condition of plants. Satellite imagery helps to monitor vegetation cover, estimate its area, classify it, predict its productivity and diseases that vegetation cover might have, estimate vegetation density and changes in plant biomass; and distinguish between different vegetation covers. Therefore, suggesting solutions to protect vegetation cover, contributes to the process of natural resources management and preserves forests from deterioration. Forests are an important source of biodiversity on earth; however, recently many of the world's forests suffer from diseases, resulting in the death of large numbers of trees. Many developed countries resort to a variety of measures and methods in order to reduce this.These modern methods include the use of remote sensing techniques, which are used to identify diseased parts of the forest by Aerospace Survey, as well as in studies to combat desertification and land reclamation. Remote sensing techniques are also used to identify suitable areas for tourism that are characterized by biodiversity. In addition, they help in city planning processes and clarify the potential environmental impacts of expanding population and industrial areas at the expense of natural ecosystems.Remote sensing techniques can be used to build a database on plant biodiversity for any area of interest. One of the programs used for analysis and interpretation of biodiversity is Super GIS Biodiversity Analyst, which integrates the GIS properties of exploring, displaying, querying, and spatial analysis and attributes data and biodiversity properties of species richness, diversity and evenness.The program features are as follows: a. Supports the importing of sample files in vector format to act as the sample area for biodiversity analysis.b. Displays the biodiversity analysis results in point or polygon layers.c. Users can select the required biodiversity indices for the analysis.d. Interprets topography including: area/density/edge/shape/diversity/isolation/proximity.Normalized Difference Vegetation Index (NDVI) is also one of the most well-known remote sensing techniques used in plant studies. The first to develop this Index is Rouse et al. 1 based on the absorption estimation of red and infrared spectroscopy and is therefore a means of monitoring changes in vegetation cover. It is also related to the type and intensity of plant cover and the difference in the absorption of plants to red and infrared radiation compared to soil, so areas with dense vegetation cover differ in spectral characteristics from those shown in the short infrared range. This can be done by using the Normalized Difference Vegetation Index (NDVI) equation. 2 The relative relationship between the third and the fourth domains is applied to the following equation: NDVI = (band 4 -band 3) / (band 4 + band 3).The third band represents red rays along a wavelength of light ranging from 0.63-0.69 micrometers, which can distinguish between dry areas and green areas. The fourth band represent...

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Hanan Fahad Al Harbi

Radioprotective efficacy of zinc oxide nanoparticles on γ-ray-induced nuclear DNA damage in Vicia faba L. as evaluated by DNA bioassays

Using Remote Sensing Techniques and GIS in Studying Plant Biodiversity

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