Resultados de búsqueda - "structuralism"

Structure of bean genetic resources: its importance and applications por Debouck, Daniel G.

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Genetic structure of the population of Suri alpaca from Peru por Gallegos Acero, Roberto, Canaza Cayo, Ali William, Rodríguez Huanca, Francisco Halley, Mamani Cato, Rubén Herberht

Materias: “…Genetic structure…”
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Ecosystemic structural–functional approach of the state and transition model por Lopez, Dardo Ruben, Cavallero, Laura, Brizuela, Miguel Angel, Aguiar, Martín Roberto

“…These axes define what we will call Structural–Functional State and Transition Model (SFSTM). …”
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Carotenoids in dehydrated persimmon: Antioxidant activity, structure, and photoluminescence por González, Cristina M., López-García, Adrián, Llorca, Empar, Hernando, Isabel, Atienzar, Pedro, Bermejo, Almudena, Moraga, Gemma, Quiles, Amparo

“…In this sense, photoluminescence, in combination with spectrophotometric, chromatographic and structural techniques, helps to understand the phenomena caused by both, ripening and drying treatments, in the persimmon's carotenoids fraction.…”
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Analysis of the production structure and crop costs of pomegranates in Spain por Fernández-Zamudio, María A., Bartual, Julián, Melián Navarro, Amparo

Materias: “…E90 Agrarian structure…”
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Spanish woodworking industry : geographical structure, export and import por Ureña Lara, Fransisco Javier

Materias: “…geographical structure…”

Development of inspection systems for estimating the structural integrity of trees por Bellows, Curtis Charles

“…This report maps the historical development of modern structural risk assessment's start in conservation area management and its evolution, and application, into the urban arena. …”
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Leaf structure and localization of a transgene protein in barley por Ivarson, Emelie, Leijman, Emma

“…In the modified lines, preliminary studies have shown irregular structure of epidermis (Santén et al., unpublished). …”

Characterization of the global Brown Swiss cattle population structure por Gebremariam, Worede

Green structure planning in Transit-oriented Development (TOD) por Nilsson, Camilla

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Analysis of the methanogenic and acetogenic community structure in young calves por Lenngren Hysing, Paulina

Structure and Governance Implications of the New CGIAR Vision and Strategy por Javier, Emil Q.

“…It supplements TAC's paper for the Synthesis Group, Implications of the New CGIAR Vision and Strategy for Structure and Governance.The paper consists of sixteen propositions. …”
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The CGIAR in the 21st Century: Options for Structural Change por McCalla, Alexander F.

“…The first part of TAC's analysis of structural change in the CGIAR and the forms it might take in the long term. …”
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CGIAR and IARC Governance, Organisation and Structure: An African Perspective por Forum for Agricultural Research in Africa, Mukiibi, Joseph K., Mrema, Geoffrey

“…Mukiibi and distributed at CGIAR International Centers Week 2000 as background to the discussion of structure and governance..The paper suggests changes to make the CGIAR and its IARCs more responsive to the needs of African agricultural research, to improve collaborative research between IARCs and African NARS, and to align their priorities more effectively. …”
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Takgårdar för barn por Bergdahl, Susanne

Materias: “…Agrarian structure…”
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The prediction of genetic structure of East African smallholder dairy cattle por Weerasinghe, W.M.S.P., Gondro, C., Jeyaruban, M.G., Okeyo Mwai, Ally, Mujibi, Denis, Gibson, John P.

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Pan-tropical prediction of forest structure from the largest trees por Bastin, J.F., Rutishauser, E., Kellner, J.R., Saatchi, S., Pélissier, R., Hérault, B., Slik, F., Bogaert, J., Cannière, C. de, Marshall, A.R., Poulsen, J., Álvarez Loyayza, P., Andrade, A., Angbonga-Basia, A., Araújo Murakami, Alejandro, Arroyo, L., Ayyappan, N., Paulo de Azevedo, C., Banki, O., Barbier, N., Barroso, Jorcely G., Beeckman, H., Bitariho, R., Boeckx, P., Boehning-Gaese, K., Brandao, H., Brearley, F.Q., Breuer Ndoundou Hockemba, M., Brienen, R., Camargo, J.L.C., Campos Arceiz, A., Cassart, B., Chave, J., Chazdon, R., Chuyong, G.B., Clark, D.B., Clark, C.J., Condit, R., Honorio Coronado, E.N., Davidar, P., Haulleville, T. de, Descroix, L., Doucet, J-L., Dourdain, A., Droissart, V., Duncan, T., Silva Espejo, J.E., Espinosa, S., Farwig, N., Fayolle, A., Feldpausch, T.R., Ferraz, A., Fletcher, C., Gajapersad, K., Gillet, J.F., Leao do Amaral, I., Gonmadje, C., Grogan, J., Harris, D., Herzog, S.K., Homeier, J., Hubau, W., Hubbell, S.P., Hufkens, K., Hurtado, J., Kamdem, N.G., Kearsley, E., Kenfack, D., Kessler, M., Labrière, N., Laumonier, Y., Laurance, S.G.W., Laurance, W.F., Lewis, S.L., Libalah, M.B., Ligot, G., Lloyd, J., Lovejoy, Thomas E., Malhi, Y., Marimon, B.S., Marimon Junior, B.H., Martin, E.H., Matius, P., Meyer, V., Mendoza Bautista, C., Monteagudo Mendoza, Abel L., Mtui, A., Neill, D., Parada Gutierrez, G.A., Pardo, G., Parren, M., Parthasarathy, N., Phillips, Oliver L., Pitman, N.C.A., Ploton, P., Ponette, Q., Ramesh, B.R., Razafimahaimodison, J-C., Réjou-Méchain, M., Gonçalves Rolim, S., Romero Saltos, H., Brum Rossi, L.M., Spironello, W.R., Rovero, F., Saner, P., Sasaki, D., Schulze, M., Silveira, M., Singh, J., Sist, P., Sonke, B., Soto, J.D., Rodrigues de Souza, C., Stropp, J., Sullivan, M.J.P., Swanepoel, B., Ter Steege, H., Terborgh, J., Texier, N., Toma, T., Valencia, R., Valenzuela, L., Valle Ferreira, L., Cornejo Valverde, F., Andel, T.R. van, Vásque, R., Verbeeck, H., Vivek, P., Vleminckx, J., Vos, V.A., Wagner, F.H., Warsudi, P.P., Wortel, V., Zagt, R.J., Zebaze, D.

“…To close this gap, we propose a new pan‐tropical model to predict plot‐level forest structure properties and biomass from only the largest trees.Pan‐tropical.Early 21st century.Woody plants.Using a dataset of 867 plots distributed among 118 sites across the tropics, we tested the prediction of the quadratic mean diameter, basal area, Lorey's height, community wood density and aboveground biomass (AGB) from the ith largest trees.Measuring the largest trees in tropical forests enables unbiased predictions of plot‐ and site‐level forest structure. …”
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Wildfire effects on forest structure of Pinus merkusii in Sumatra, Indonesia por Hartiningtias, D., Fulé, P.Z., Gunawan, A.A.

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Macroecological patterns of forest structure and allometric scaling in mangrove forests por Rovai, A.S., Twilley, R.R., Castañeda Moya, E., Midway, S.R., Friess, D.A., Trettin, C.C., Bukoski, J.J., Stovall, A.E.L., Pagliosa, P.R., Fonseca, A.L., Mackenzie, R.A., Aslan, A., Sasmito, S.D., Sillanpää, M., Cole, T.G., Purbopuspito, J., Warren, M.W., Murdiyarso, D., Mofu, W., Sharma, S., Tinh, P.H., Riul, P.

“…We built the largest field‐based dataset on mangrove forest structure and biomass to date (c. 2,800 plots from 67 countries) to address macroecological questions pertaining to structural and functional diversity of mangroves spanning biogeographical and coastal morphology gradients. …”
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Floral Structure and Breeding Systems of Manglietia conifera Dandy (Magnoliaceae) por Hao, J., Pan, L., Jia, H., Jiang, Q., Pan, Q., Pinyopusarerk, K., Kalinganire, A.

“…Results from the flower structure, pollen–ovule ratio, outcrossing index, and controlled pollination indicated that the breeding system in M. conifera was outcrossing (partially self-compatible, pollinators required), and self-incompatibility occurred in a later stage of embryonic development. …”
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