<> "The repository administrator has not yet configured an RDF license."^^ . <> . . . "Inland Valley Wetland Cultivation and Preservation for Africa’s Green and Blue Revolution Using Multi-Sensor Remote Sensing"^^ . "Africa is the second largest continent after Asia with a total\r\narea of 30.22 million km2 (including the adjacent islands).\r\nIt has great rivers such as the River Nile, which is the longest\r\nin the world and flows a distance of 6650 km, and the River\r\nCongo, which is the deepest in the world, as well as the second\r\nlargest in the world in terms of water availability. Yet,\r\nAfrica also has vast stretches of arid, semiarid, and desert\r\nlands with little or no water. Further, Africa’s population is\r\nprojected to increase by four times by the year 2100, reaching\r\nabout four billion from the current population of little over\r\none billion. Food insecurity and malnutrition are already\r\nhighest in Africa (Heidhues et al., 2004) and the challenge\r\nof meeting the food security needs of the fastest-growing\r\ncontinent in the twenty-first century is daunting. So, many\r\nsolutions are thought of to ensure food security in Africa.\r\nThese ideas include such measures as increasing irrigation\r\nin a continent that currently has just about 2% of the global\r\nirrigated areas (Thenkabail et al., 2009a, 2010), improving\r\ncrop productivity (kg m−2), and increasing water productivity\r\n(kg m−3). However, an overwhelming proportion of Africa’s\r\nagriculture now takes place on uplands that have poor soil\r\nfertility and water availability (Scholes, 1990). Thereby, the\r\ninterest in developing sustainable agriculture in Africa’s lowland\r\nwetlands, considered by some as the “new frontier” in\r\nagriculture, has swiftly increased in recent years. The lowland\r\nwetland systems include the big wetland systems that\r\nare prominent and widely recognized (Figure 9.1) as well as\r\nthe less prominent, but more widespread, inland valley (IV)\r\nwetlands (Figures 9.2 through 9.8) that are all along the first\r\nto highest order river systems..."^^ . "2015-10" . . . "CRC Press"^^ . . "CRC Press"^^ . . . . . . . . . . . . . . . . . . . . . . . "M K"^^ . "Gumma"^^ . "M K Gumma"^^ . . "I A"^^ . "Mohammed"^^ . "I A Mohammed"^^ . . "P S"^^ . "Thenkabail"^^ . "P S Thenkabail"^^ . . "V"^^ . "Dheeravath"^^ . "V Dheeravath"^^ . . "P"^^ . "Teluguntla"^^ . "P Teluguntla"^^ . . . . . . "Inland Valley Wetland Cultivation and Preservation for Africa’s Green and Blue Revolution Using Multi-Sensor Remote Sensing (PDF)"^^ . . . . . "Inland Valley Wetland Cultivation and Preservation for Africa’s Green and Blue Revolution Using Multi-Sensor Remote Sensing (Other)"^^ . . . . . . "Inland Valley Wetland Cultivation and Preservation for Africa’s Green and Blue Revolution Using Multi-Sensor Remote Sensing (Other)"^^ . . . . . . "Inland Valley Wetland Cultivation and Preservation for Africa’s Green and Blue Revolution Using Multi-Sensor Remote Sensing (Other)"^^ . . . . . . "Inland Valley Wetland Cultivation and Preservation for Africa’s Green and Blue Revolution Using Multi-Sensor Remote Sensing (Other)"^^ . . . . . . "Inland Valley Wetland Cultivation and Preservation for Africa’s Green and Blue Revolution Using Multi-Sensor Remote Sensing (Other)"^^ . . . . . "HTML Summary of #9182 \n\nInland Valley Wetland Cultivation and Preservation for Africa’s Green and Blue Revolution Using Multi-Sensor Remote Sensing\n\n" . "text/html" . . . "Agriculture-Farming, Production, Technology, Economics"@en . . . "Climate Change"@en . .