The Food & Water research area aims to balance the maintenance of biodiversity with the needs of agriculture and food security, taking water availability into account.<\/p>\n<\/div>\n
[\/et_pb_text][\/et_pb_column][\/et_pb_row][\/et_pb_section][et_pb_section admin_label=”section” fullwidth=”off” specialty=”on” background_image=”https:\/\/ar14.iiasa.ac.at\/wp-content\/uploads\/sites\/10\/green.jpg” transparent_background=”off” background_color=”#ffffff” inner_shadow=”off” parallax=”off” parallax_method=”off” allow_player_pause=”off” padding_mobile=”off” make_fullwidth=”off” use_custom_width=”off” width_unit=”on” make_equal=”off” use_custom_gutter=”off” parallax_1=”off” parallax_method_1=”off” parallax_2=”off” parallax_method_2=”off”][et_pb_column type=”2_3″ specialty_columns=”2″][et_pb_row_inner admin_label=”row_inner”][et_pb_column_inner type=”4_4″ saved_specialty_column_type=”2_3″][et_pb_text admin_label=”transboundary” background_layout=”dark” text_orientation=”left”]<\/p>\n
Transboundary water<\/h3>\n
IIASA is studying environmental-water-related problems in the Rio Grande\/Rio Bravo River Basin which forms part of the United States-Mexico border. As the water allocation regime between the USA and Mexico is a century old, environmental governance of the area is fragmented and outdated. This is contributing to drought and water scarcity, degradation of water quality, loss of river habitats, and over-exploitation of groundwater.<\/p>\n
The research, begun in 2014, aims to assess the institutional and organizational arrangements for water management and conservation and so define a broader framework for comparison of different scenarios of transboundary water governance.<\/p>\n
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<\/h3>\nCitizen science<\/h3>\n
Crowdsourcing to improve land cover data advanced in 2014 with the award of a highly competitive Consolidator Grant by the European Research Council (ERC) to extend IIASA\u2019s citizen science project, Geo-Wiki.<\/p>\n
Understanding where cropland is located is important for future food production as well as for monitoring environmental changes such as deforestation. The \u20ac1.4 million ERC grant will help take the IIASA team\u2019s research from computer validation of land cover images in the Cropland Capture game to the real world. It aims to build a network of citizen scientists to provide in situ data on land cover and land use in Austria, Kenya, and Tanzania, using mobile apps and Geo-Wiki.<\/p>\n
Growers\u2019 Nation, a new mobile app developed by IIASA researchers, won the 2014 global app development competition, Appathon, held by the Group on Earth Observations (GEO). The app uses data such as temperature, precipitation, elevation, and slope from the GEOSS portal, and can help gardeners and small-scale farmers determine what to plant and when.<\/p>\n
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Winged invaders<\/h3>\n
IIASA scientists are contributing to a growing body of literature stressing the potential of eco-evolutionary dynamics to aggravate the global biodiversity crisis. For example, in 2014 a study of an ongoing invasion of winter moth among tree species in northern Fennoscandia showed the drastic changes that can be inflicted on an invaded ecosystem as a result of eco-evolutionary dynamics. Research synthesized two major theories for the invasion. These enabled a new theoretical framework to be built that allows different invasion scenarios to be compared and thus a better understanding gained of invasion processes in general.<\/p>\n
Eco-evolutionary dynamics also determine the potential of living systems to respond to other anthropogenic environmental changes, such as the ongoing rise in atmospheric carbon dioxide. Especially responses by vegetation, the largest living element in the Earth\u2019s biosphere, are crucial for agricultural productivity and upholding biodiversity. A new IIASA model shows how these responses are strongly determined by systemic interactions between plants and the complex communities of microbial organisms in the soil.<\/p>\n