Resultados de búsqueda - distribution spatiale

Species and phenotypic distribution models reveal population differentiation in Ethiopian indigenous chickens por Getachew, Fasil, Komen, Hans, Dessie, Tadelle, Worku, Setegn, Hanotte, Olivier H., Bastiaansen, John W.M.

“…The long history of domestication and the presence of diverse agroecologies in Ethiopia create unique opportunities to study the effect of environmental selective pressures. Species distribution models (SDMs) and Phenotypic distribution models (PDMs) can be applied to investigate the relationship between environmental variation and phenotypic differentiation in wild animals and domestic populations. …”
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National serosurvey and risk mapping reveal widespread distribution of Coxiella burnetii in Kenya por Wambua, Lillian, Bett, Bernard K., Abkallo, Hussein M., Muturi, Mathew, Nthiwa, D., Nyamota, Richard, Kiprono, Enock, Kirwa, Lynn, Gakuya, F., Bartlow, A.W., Middlebrook, E.A., Fair, J., Njenga, K., Gachohi, J., Mwatondo, Athman, Akoko, James M.

“…We implemented a national serosurvey of cattle in Kenya to map the spatial distribution of the pathogen. The study used serum samples that were collected from randomly selected cattle in different ago-ecological zones across the country. …”
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A comparison of global mangrove maps: Assessing spatial and bioclimatic discrepancies at poleward range limits por Ximenes, Arimatéa C., Cavanaugh, Kyle C., Arvor, Damien, Murdiyarso, Daniel, Thomas, Nathan, Arcoverde, Gustavo F.B., Conceição Bispo, Polyanna da, Stocken, Tom van der

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Vulnerability assessment of water resources in hilly region of Nepal por Chhetri, R., Kumar, P., Pandey, Vishnu P., Singh, R., Pandey, S.

Materias: “…spatial distribution…”
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Potential of satellite and reanalysis evaporation datasets for hydrological modelling under various model calibration strategies por Dembélé, M., Ceperley, N., Zwart, Sander J., Salvadore, E., Mariethoz, G., Schaefli, B.

Materias: “…spatial distribution…”
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Hydrological response of Chamelia Watershed in Mahakali Basin to climate change por Pandey, Vishnu Prasad, Dhaubanjar, Sanita, Bharati, Luna, Thapa, Bhesh Raj

Materias: “…spatial distribution…”
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Landscape heterogeneity influences on sheep habits under extensive grazing management in Southern Patagonia por Ormaechea, Sebastián Gabriel, Peri, Pablo Luis

Materias: “…Spatial Distribution…”
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Comportamiento y distribución animal en pastoreo extensivo por Herrera Conegliano, Oscar Ariel, Quiroga, Raul Emiliano, Blanco, Lisandro Javier

Materias: “…Spatial Distribution…”
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Improvement of spatial modelling of crop suitability using a new digital soil map of Tanzania por Piikki, Kristin, Winowiecki, Leigh Ann, Vågen, Tor-Gunnar, Ramírez Villegas, Julián Armando, Söderström, Mats

“…However, future projections suggest that climate will be more limiting for the geographic distribution of common beans than SOC in the near future (2030). …”
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Climate-driven spatial mismatches between British orchards and their pollinators: increased risks of pollination deficits por Polce, Chiara, Garratt, Michael P.D., Termansen, Mette, Ramírez Villegas, Julián Armando, Challinor, Andrew J., Lappage, Martin G, Boatman, Nigel D, Crowe, Andrew, Endalew, Ayenew Melese, Potts, Simon G., Somerwill, Kate E, Biesmeijer, Jacobus C.

“…At present, there is a large spatial overlap between orchards and their pollinators, but predictions for 2050 revealed that the most suitable areas for orchards corresponded to low pollinator availability. …”
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Spatial analysis and risk mapping of Crimean-Congo hemorrhagic fever (CCHF) in sub-Saharan Africa por Ilboudo, Abdoul K., Oloo, Stephen O., Sircely, Jason, Nijhof, A.M., Bett, Bernard K.

“…Crimean Congo hemorrhagic fever (CCHF) is a re-emerging tick-borne zoonosis that is caused by CCHF virus (CCHFV). The geographical distribution of the disease and factors that influence its occurrence are poorly known. …”
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Spatial evaluation of soil salinity using the WET sensor in the irrigated area of the Segura river lowland por De-Paz, José M., Visconti, Fernando, Rubio, José L.

“…A good correlation (r = 0.818, p < 0.001) between EC(p) and EC(se) was found. Spherical spatial distribution was the best model to fit to experimental semivariograms of EC(p) at 10, 30, and 50 cm soil depths. …”
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Mapping populations at risk: improving spatial demographic data for infectious disease modeling and metric derivation por Tatem, Andrew J., Adamo, Susana, Bharti, Nita, Burgert, Clara R., Castro, Marcia, Dorelien, Audrey, Fink, Gunter, Linard, Catherine, John, Mendelsohn, Montana, Livia, Montgomery, Mark R., Nelson, Andrew, Noor, Abdisalan M., Pindolia, Deepa, Yetman, Greg, Balk, Deborah

“…This expansion has, however, not been matched by advancements in the development of spatial datasets of human population distribution that accompany disease maps or spatial models. …”
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Spatial Market Segmentation: A data-driven approach to identifying priority rice market segments in the Philippines por Paguirigan, Neale Marvin, Maunahan, Aileen, Laborte, Alice

“…Understanding the geographical distribution of these market segments can support the development of well-targeted and demand-driven breeding products. …”
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Structure and spatial patterns of trees in old-growth northern hardwood and mixed forests of northern Maine por Chokkalingam, U., White, A.

“…The inclusion of saplings, dead wood, age distributions, spatial pattern, and interactions provided some idea of underlying processes and temporal change. …”
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Spatial mapping of agricultural water productivity using SWAT model in upper Bhima catchment, India por Garg, Kaushal K., Bharati, Luna, Gaur, Anju, George, B., Acharya, Sreedhar, Jella, Kiran, Narasimhan, B.

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Estimating the spatial variability of water consumption in the Karkheh River Basin, Iran - using MODIS data por Muthuwatta, Lal P., Ahmad, Mobin-ud-Din, Rientjes, T.H.M., Bos, M.G.

“…Spatially distributed actual evapotranspiration (ETa) values were estimated based on satellite data and the Surface Energy Balance System (SEBS) approach for the Karkheh River Basin, Iran. …”
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High spatial resolution seasonal crop yield forecasting for heterogeneous maize environments in Oromia, Ethiopia por Tesfaye, Kindie, Takele, Robel, Shelia, Vakhtang, Lemma, Esayas, Dabale, Addisu, Sibiry Traoré, Pierre C., Solomon, Dawit, Hoogenboom, Gerrit

“…Under such conditions, a functional and granular spatial yield forecasting system could provide risk management options for farmers and agricultural and policy experts, leading to greater economic and social benefits under highly variable environmental conditions. …”
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Mapping the potential distribution of plants and animals for wildlife management: the use of the DOMAIN software package por Gillison, A.N.

“…In this way a rapid appraisal of the potential distribution of one or more species can be made for any area where there are available relevant, spatially referenced environmental data. …”
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Building essential biodiversity variables (EBVs) of species distribution and abundance at a global scale por Kissling, W. Daniel, Ahumada, Jorge A., Bowser, Anne, Fernández, Miguel, Fernández, Néstor, García, Enrique Alonso, Guralnick, Robert P., Isaac, Nick J. B., Kelling, Steve, Los, Wouter, McRae, Louise, Mihoub, Jean-Baptiste, Obst, Matthias, Santamaria, Monica, Skidmore, Andrew K., Williams, Kristen J., Agosti, Donat, Amariles, Daniel, Arvanitidis, Christos, Bastin, Lucy, Leo, Francesca de, Egloff, Willi, Elith, Jane, Hobern, Donald, Martin, David, Pereira, Henrique M., Pesole, Graziano, Peterseil, Johannes, Saarenmaa, Hannu, Schigel, Dmitry, Schmeller, Dirk S., Segata, Nicola, Turak, Eren, Uhlir, Paul F., Wee, Brian, Hardisty, Alex R.

“…Here, we assess the challenges of a ‘Big Data’ approach to building global EBV data products across taxa and spatiotemporal scales, focusing on species distribution and abundance. The majority of currently available data on species distributions derives from incidentally reported observations or from surveys where presence-only or presence–absence data are sampled repeatedly with standardized protocols. …”
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