Resultados de búsqueda - "angiosperms"

The global distribution and drivers of wood density and their impact on forest carbon stocks por Mo, Lidong, Crowther, Thomas W., Maynard, Daniel S., van den Hoogen, Johan, Ma, Haozhi, Bialic-Murphy, Lalasia, Liang, Jingjing, de-Miguel, Sergio, Nabuurs, Gert-Jan, Reich, Peter B., Peri, Pablo Luis, Zohner, Constantin M.

“…Our findings reveal a pronounced latitudinal gradient, with wood in tropical forests being up to 30% denser than that in boreal forests. In both angiosperms and gymnosperms, hydrothermal conditions represented by annual mean temperature and soil moisture emerged as the primary factors influencing the variation in wood density globally. …”
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New insights into wood anatomy and function relationships: how Eucalyptus challenges what we already know por Fernandez, María Elena, Barotto, Antonio José, Martinez Meier, Alejandro, Gyenge, Javier, Teson, Natalia, Quiñones Martorello, Adriana, Merlo, Esther, Dalla Salda, Guillermina, Rozenberg, Philippe, Monteoliva, Silvia Estela

“…These results provide new insights into the relationships between wood structure and function of angiosperm species.…”
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Estudio de la auto(in)compatibilidad en Ipomoea batatas (L.) Lam: segregación del carácter, variantes alélicas y mecanismos involucrados por Ferrari, Martin Alejandro

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Pantropical tree rings show small effects of drought on stem growth por Zuidema, Pieter A, Groenendijk, Peter, Rahman, Mizanur, Trouet, Valerie, Abiyu, Abrham, Acuña Soto, Rodolfo, Adenesky Filho, Eduardo, Alfaro Sánchez, Raquel, Anholetto Jr, Claudio Roberto, Vieira Aragão, José Roberto, Assis Pereira , Gabriel, Astdillo Sánchez, Claudia C, Barbosa , Ana Carolina, Battipaglia , Giovanna, Beeckman, Hans, Botosso , Paulo Cesar, Bourland , Nils, Bräuning , Achim, Brienen Roel, Roel, Brookhouse , Matthew, Buajan , Supaporn, Buckley , Brandan M, Camarero , J Julio, Carrillo Parra , Artemio, Ceccantini, Gregório, Centeno Erguera , Librado R, Cerano Paredes, Julián, Cervantes Martínez , Rosalinda, Chanthorn, Wirong, Chen, Ya Jun, Ladvocat Cintra , Bruno Barçante, Cornejo Oviedo , Eladio Heriberto, Cortés Cortés , Otoniel, Matos Costa , Clayane, Couralet , Camille, Crispín De La Cruz , Doris Bianca, D'arrigo , Rosanne, David , Diego A, De Ridder , Maaike, Del Valle , Jorge Ignacio, Dobner Jr , Mário, Doucet , Jean Louis, Dünisch , Oliver, Enquist , Brian J, Esemann Quadros , Karin, Esquivel Arriaga , Gerardo, Fan , Ze Xin, Fayolle , Adeline, Bergamo Fenilli , Tatiele Anete, Ferrero , M Eugenia, Fichtler , Esther, Finnegan , Patrick M, Fontana , Claudia, Francisco , Kainana S, Fu , Pei Li, Galvão , Franklin, Gebrekirstos , Aster, Jorge A Giraldo , Jorge A Giraldo, Gloor , Emanuel, Godoy Veiga , Milena, Granato Souza , Daniela, Guerra , Anthony, Haneca , Kristof, Logan Harley , Grant, Heinrich, Ingo, Helle , Gerhard, Hornink , Bruna, Hubau , Wannes, Inga , Janet, Islam , Mahmuda, Jiang , Yu Mei, Kaib , Mark, Khamisi , Zakia Hassan, Koprowski Marcin, Marcin, Layme Huamán , Eva Trinidad, Leffler , A Joshua, Ligot , Gauthier, Lisi , Claudio Sergio, Loader , Neil J, De Almeida Lobo , Francisco, Maselli Locosselli Giuliano, Giuliano, Longhi Santos , Tomaz, Lopez , Lidio, López Hernández , María I, Penetra Cerveira Lousada , José Luís, Manzanedo , Rubén D, Marcon , Amanda K, Maxwell , Justin T, Mendoza Villa , Omar N, Nunes Menezes, Itallo Romany, Mokria , Mulugeta, Ribeiro Montóia , Valdinez, Moors , Eddy, Moreno , Miyer, Muñiz Castro , Miguel Angel, Nabais , Cristina, Nathalang , Anuttara, Ngoma , Justine, De Carvalho Nogueira Jr , Francisco, Morales Oliveira , Juliano, Morais Olmedo , Gabriela, Ortega Rodriguez , Daigard Ricardo, Rodríguez Ortíz , Carmen Eugenia, Alves Pagotto , Mariana, Panthi , Shankar, Paredes Villanueva , Kathelyn, Pérez de Lis , Gonzalo, Ponce Calderón , Laura Patricia, Portal Cahuana , Leif Armando, Pucha Cofrep , Darwin Alexander, Pumijumnong , Nathsuda, Quadri , Paulo, Ramírez , Jorge Andrés, Requena Rojas , Edilson Jimmy, Reyes Flores , Judith, de Souza Ribeiro , Adauto, Robertson , Iain, Roig , Fidel Alejandro, Roquette , José Guilherme, Rubio Camacho , Ernesto Alonso, Sánchez Salguero , Raúl, Sass Klaassen , Ute, Schöngart , Jochen, Callegari Scipioni , Marcelo, Sheppard , Paul R, Silva , Lucas C R, Slotta , Franziska, Soria Díaz , Leroy, Sousa , Luciana K V S, Speer , James, Therrell , Matthew D, Ticse Otarola , Ginette, Tomazello Filho , Mario, Torbenson , Max C A, Tor Ngern , Pantana, Touchan , Ramzi, Van den Bulcke , Jan, Vázquez Selem , Lorenzo, Velázquez Pérez , Adín H, Venegas González , Alejandro, Villalba , Ricardo, Villanueva Diaz , Jose, Vlam , Mart, Vourlitis , George, Wehenkel , Christian, Wils , Tommy, Zavaleta , Erika S, Asfaw Zewdu , Eshetu, Yong Jiang , Zhang, Zhou , Zhe Kun, Babst , Flurin

“…Stem growth declines exceeded 10% in 25% of cases and were larger at hotter and drier sites and for gymnosperms compared with angiosperms. Growth declines generally did not outlast drought years and were partially mitigated by growth stimulation in wet years. …”
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Retrotransposon and CRISPR/Cas9‑mediated knockout of NOD26 impairs the legume‑rhizobia symbiosis por Frare, Romina Alejandra, Stritzler, Margarita, Gomez, Maria Cristina, Tajima, Hiromi, Pascuan, Cecilia Gabriela, López Fernández, María Paula, Bottero, Ana Emilia, Nikel, Pablo I., Alleva, Karina Edith, Ayub, Nicolás Daniel, Blumwald, Eduardo, Soto, Gabriela Cynthia

“…Recently, we have reported the emergence of NOD26 in the nitrogen-fixing clade of angiosperms via tandem duplication. Here, we characterized the two copies of NOD26 from Medicago truncatula (Medtr8g087710 and Medtr8g087720) in their transport abilities, and at gene expression and genetic levels. …”
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Identificación del origen genético de un rodal semillero implantado de Nothofagus obliqua a través del análisis de dos regiones inter-génicas de ADN de cloroplasto por Azpilicueta, Maria Marta, Marchelli, Paula, Aparicio, Alejandro Gabriel, Pastorino, Mario Juan

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Caracterización molecular con marcadores ISSR de la colección de cítricos de la Universidad de los Llanos por Castañeda Cardona, Christian Camilo, Portela Puerta, Rogelio, Morillo Coronado, Yacenia

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Mineralogical characterization of fossil woods from the Las Cañas Formation (early Pliocene), Santiago del Estero, Argentina, mainly using SEM and EDX, XRD, FTIR and Confocal Raman... por Baez, Enrique Alberto, Crisafulli, Alexandra, Kanbour, Agustín, Figueredo, Elsa Iris

“…This study conducted physicochemical and mineralogical characterization of fossil angiosperm woods, from Neogene fluvial sedimentary deposits of the Dulce River (Termas de Río Hondo Sector), Santiago del Estero Province, Argentina. …”
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Salt glands in the Poaceae Family and their relationship to salinity tolerance por Céccoli, Gabriel, Ramos, Julio Cesar, Pilatti, Vanesa, Dellaferrera, Ignacio Miguel, Tivano, Juan, Taleisnik, Edith, Vegetti, Abelardo Carlos

“…The Poaceae is one of the most important Angiosperm families, in terms of morphological diversity, ecology and economic importance. …”
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Use of near-infrared spectroscopy to estimate physical, anatomical and hydraulic properties of Eucalyptus wood por Barotto, Antonio José, Martinez Meier, Alejandro, Segura, Vincent, Monteoliva, Silvia Estela, Charpentier, Jean-Paul, Gyenge, Javier, Sergent, Anne Sophie, Millier, Frédéric, Rozenberg, Philippe, Fernandez, María Elena

“…Previous studies have shown that a significant number of anatomical, physical, chemical and mechanical wood properties can be estimated through NIRS, both for angiosperm and gymnosperm species. However, the ability of this technique to predict functional traits related to drought resistance has been poorly explored, especially in angiosperm species. …”
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Biotechnology in reproductive biology por Hahn, S.K., Bai, K.V., Asiedu, Robert, Dixon, Alfred G.O., Tavoletti, S., Mariani, A., Veronesi, F., Tuyl, J.M. van, Creji, M.G.M. van, Dien, M.P. van, Kerckhoffs, D.M.F.Y, Laublin, G., Brault, M., Cappadocia, M., Makoveychuk, A.

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Australian vegetation por Turnbull, J.W.

“…At a higher taxonomic level, almost all angiosperm families in Australia occur widely in other parts of the world. …”
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Worldwide diversity of endophytic fungi and insects associated with dormant tree twigs por Franic, Iva, Prospero, Simone, Adamson, Kalev, Corley, Juan Carlos, Lantschner, Maria Victoria, Soliani, Carolina, Eschen, René

“…We present records of endophytic fungi and insects in twigs of 17 angiosperm and gymnosperm genera, from 51 locations in 32 countries worldwide. …”
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Characterisation of the telomeres at opposite ends of a 3 Mb Theileria parva chromosome por Sohanpal, B.K., Morzaria, S.P., Gobright, E.I., Bishop, Richard P.

“…The T. parva telomeric repeat sequences, a tandem array of TTTTAGGG or TTTAGGG interspersed with a few variant copies, showed a high degree of sequence identity of those of the photosynthetic algae Chlamydomonas reinhardtii (97 percent identity) and Chlorella vulgaris (87.7 percent identity) and the angiosperm Arabidopsis thaliana (84.4 percent identity). …”
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Genome-Wide classification and phylogenetic analyses of the GDSL-Type Esterase/Lipase (GELP) family in flowering plants por Cenci, Alberto, Concepción-Hernández, Mairenys, Guignon, Valentin, Angenon, Geert, Rouard, Mathieu

“…First, we applied an iterative phylogenetic method using a selected set of representative angiosperm genomes (three monocots and five dicots) and identified 10 main clusters, subdivided into 44 orthogroups (OGs). …”
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Field performance of improved cowpea varieties under conditions of natural infestation by the parasitic weed Striga gesnerioides por Kamara, A.Y., Chikoye, David, Ekeleme, F., Omoigui, L.O., Dugje, I.Y.

“…Yields are, however, considerably reduced by the parasitic angiosperm Striga gesnerioides. Field trials over 2 years in two localities in northeast Nigeria evaluated the performance of diverse cowpea varieties under conditions of natural infestation by Striga. …”
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Potential effects of ongoing and proposed hydropower development on terrestrial biodiversity in the Indian Himalaya por Pandit, R., Grumbine, R. Edward

“…The SAR model projected that by 2025, deforestation due to dam building would likely result in extinction of 22 angiosperm and 7 vertebrate taxa. Disturbance due to dam building would likely reduce tree species richness by 35%, tree density by 42%, and tree basal cover by 30% in dense forests. …”
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Environmental correlates for tropical tree diversity and distribution patterns in Borneo por Slik, J.W.F., Raes, N., Aiba, Shin-Ichiro, Brearley, F.Q., Cannon, Charles H., Meijaard, E., Nagamasu, H., Nilus, R., Paoli, G., Poulsen, A.D., Sheil, Douglas, Suzuki, E., Valkenburg, J.L.C.H. van, Webb, C.O., Wilkie, P., Wulffraat, S.

“…Tree PD was correlated positively with elevation and temperature seasonality and was largely determined by gymnosperms. However, angiosperm PD also correlated positive with elevation. …”
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Mobile forms of carbon in trees : metabolism and transport por Dominguez, Pia Guadalupe, Niittylä, Totte

“…A search of possible evolutionary drivers behind the diversity of C-carrying molecules in trees reveals no consistent differences in C transport mechanisms between angiosperm and gymnosperm trees. Furthermore, the distribution of C forms across species suggests that climate-related environmental factors will not explain the diversity of C transport forms. …”
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Prediction of hydraulic conductivity loss from relative water loss: new insights into water storage of tree stems and branches por Rosner, Sabine, Heinzeb, Berthold, Savia, Tadeja, Dalla Salda, Guillermina

“…Branches and saplings of temperate conifer (Picea abies, Larix decidua) and angiosperm species (Acer campestre, Fagus sylvatica, Populus x canescens, Populus tremula, Sorbus torminalis) and trunk wood of mature P. abies trees were analyzed. …”
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