Biblio

Found 2454 results
Author [ Title(Desc)] Type Year
Filters: First Letter Of Last Name is C  [Clear All Filters]
A B C D E F G H I J K L M N O P Q R S T U V W X Y Z 
S
J. E. Larson, Sheley, R., Hardegree, S. P., Doescher, P. S., and James, J. J., Seed and seedling traits affecting critical life stage transitions and recruitment outcomes in dryland grasses, Journal of Applied Ecology, vol. 5213024165487229155987499256193523154502223296023716715481011761251008222704930398219283216189822195164410036649879187, no. 1, pp. 199 - 209, 2015.
F. Chen, R.C., M., SQ, S., and Nonogaki, H., Seed development and germination, in Plant Tissue Culture: Development and Biotechnology, T. R.N. and D.J., G., Eds. Boca Raton: CRC Press, 2010, pp. 125-138.
M. - A. C and H, N., Seed Germination, in In Encyclopedia of Science & Technology, McGraw Hill: , 2012.
T. G. Chastain, Garbacik, C. J., Silberstein, T. B., and Young, W. C., Seed production characteristics of three fine fescue species in residue management systems, Agronomy Journal, vol. 103, pp. 1495–1502, 2011.
S. G. Elias, Copeland, L. O., McDonald, M. B., and Baalbaki, R. Z., Seed testing: principles and practices. Michigan State University Press, 2012.
S. Elias, Copeland, L. O., McDonald, M. B., and Baalbaki, R. Z., Seed testing: principles and practices. East Lansing, Michigan: Michigan State University Press, 2012.
R. Baalbaki, Elias, S., Copeland, L. O., and Liu, H., Seed Testing Tolerances, in Seed Technologists Training Manual, Washington, DC: Society of Commercial Seed Technologists, 2018.
R. Z. Baalbaki, Elias, S. G., Copeland, L. O., and Liu, H., Seed Testing Tolerances, in Seed Technologists Training Manual, Washington, D.C.: Society of Commercial Seed Technologists, 2018.
M. - A. C, RC, M., and H, N., Seed traits and genes important for translational biology - Highlights from recent discoveries, Plant and Cell Physiology, vol. 53, pp. 5-15, 2012.
E. Fernández‐Pascual, Carta, A., Rosbakh, S., Guja, L., Phartyal, S. S., Silveira, F. A. O., Chen, S. ‐C., Larson, J. E., and Jiménez‐Alfaro, B., SeedArc, a global archive of primary seed germination data, New Phytologist, vol. 240, no. 2, pp. 466 - 470, 2023.
E. Fernández‐Pascual, Carta, A., Rosbakh, S., Guja, L., Phartyal, S. S., Silveira, F. A. O., Chen, S. ‐C., Larson, J. E., and Jiménez‐Alfaro, B., SeedArc, a global archive of primary seed germination data, New Phytologist, vol. 240, no. 2, pp. 466 - 470, 2023.
J. - S. Yoon, Ahn, S. - J., and Choi, M. - Y., Selection and Comparative Gene Expression of Midgut-Specific Targets for Drosophila suzukii, Insects, vol. 14, no. 1, p. 76, 2023.
C. G. Surfleet, Tullos, D., Chang, H., and Jung, I. - W., Selection of hydrologic modeling approaches for climate change assessment: A comparison of model scale and structures, Journal of Hydrology, vol. 464, pp. 233–248, 2012.
H. Hisano, Meints, B., Moscou, M. J., Cistue, L., Echavarri, B., Sato, K., and Hayes, P. M., Selection of transformation efficient barley genotypes based on TFA (transformation amenability) haplotype and higher resolution mapping of the TFA loci, Plant Cell Reports, 2017.
D. C. Ganskopp and Cruz, R., Selective differences between naive and experienced cattle foraging among eight grasses, Applied Animal Behaviour Science, vol. 62, no. 4, pp. 293 - 303, 1999.
M. E. Moustafa, Carlson, B. A., Anver, M. R., Bobe, G., Zhong, N., Ward, J. M., Perella, C. M., Hoffmann, V. J., Rogers, K., Combs, G. F., Schweizer, U., Merlino, G., Gladyshev, V. N., and Hatfield, D. L., Selenium and Selenoprotein Deficiencies Induce Widespread Pyogranuloma Formation in Mice, while High Levels of Dietary Selenium Decrease Liver Tumor Size Driven by TGFα, PLoS ONE, no. 2, p. e57389, 2013.
M. E. Moustafa, Carlson, B. A., Anver, M. R., Bobe, G., Zhong, N., Ward, J. M., Perella, C. M., Hoffmann, V. J., Rogers, K., Combs, G. F., Schweizer, U., Merlino, G., Gladyshev, V. N., and Hatfield, D. L., Selenium and Selenoprotein Deficiencies Induce Widespread Pyogranuloma Formation in Mice, while High Levels of Dietary Selenium Decrease Liver Tumor Size Driven by TGFα, PLoS ONE, no. 2, p. e57389, 2013.
G. Barrenetxea, Mezzo, J., Dubois-Ferriere, H., Couach, O., Krichane, M., Tromp, M., Huwald, H., Vetterli, M., Parlanges, M., and Selker, J., Sensorcope: A Urban Environmental Monitoring Network, in AGU Fall Meeting Abstracts, 2006.
Z. Hayat, Cherian, G., Pasha, T. N., Khattak, F. M., and Jabbar, M. A., Sensory evaluation and consumer acceptance of eggs from hens fed flax seed and 2 different antioxidants, Poultry Science, vol. 89, no. 10, pp. 2293 - 2298, 2010.
J. E. McDermott, Costa, M., Janszen, D., Singhal, M., and Tilton, S. C., Separating the drivers from the driven: Integrative network and pathway approaches aid identification of disease biomarkers from high-throughput data., Dis Markers, vol. 28, no. 4, pp. 253-66, 2010.
S. E. Fox, Preece, J., Kimbrel, J. A., Marchini, G. L., Sage, A., Youens-Clark, K., Cruzan, M. B., and Jaiswal, P., SEQUENCING AND DE NOVO TRANSCRIPTOME ASSEMBLY OF BRACHYPODIUM SYLVATICUM (POACEAE ), Applications in Plant Sciences, vol. 1, 2013.
S. Muñoz-Amatriaín, Lonardi, S., Luo, M. C., Madishetty, K., Svensson, J. T., Moscou, M. J., Wanamaker, S., Jiang, T., Kleinhofs, A., Muehlbauer, G. J., Wise, R. P., Stein, N., Ma, Y., Rodriguez, E., Kudrna, D., Bhat, P. R., Chao, S., Condamine, P., Heinen, S., Resnik, J., Wing, R., Witt, H. N., Alpert, M., Beccuti, M., Bozdag, S., Cordero, F., Mirebrahim, H., Ounit, R., Wu, Y., You, F., Zheng, J., Simková, H., Dolezel, J., Grimwood, J., Schmutz, J., Duma, D., Altschmied, L., Blake, T. K., Bregitzer, P., Cooper, L., Dilbirligi, M., Falk, A., Feiz, L., Graner, A., Gustafson, P., Hayes, P. M., Lemaux, P., Mammadov, J., and Close, T. J., Sequencing of 15 622 gene-bearing BACs clarifies the gene-dense regions of the barley genome, The Plant Journal, vol. 84, no. 1, pp. 216 - 227, 2015.
S. Muñoz-Amatriaín, Lonardi, S., Luo, M. C., Madishetty, K., Svensson, J. T., Moscou, M. J., Wanamaker, S., Jiang, T., Kleinhofs, A., Muehlbauer, G. J., Wise, R. P., Stein, N., Ma, Y., Rodriguez, E., Kudrna, D., Bhat, P. R., Chao, S., Condamine, P., Heinen, S., Resnik, J., Wing, R., Witt, H. N., Alpert, M., Beccuti, M., Bozdag, S., Cordero, F., Mirebrahim, H., Ounit, R., Wu, Y., You, F., Zheng, J., Simková, H., Dolezel, J., Grimwood, J., Schmutz, J., Duma, D., Altschmied, L., Blake, T. K., Bregitzer, P., Cooper, L., Dilbirligi, M., Falk, A., Feiz, L., Graner, A., Gustafson, P., Hayes, P. M., Lemaux, P., Mammadov, J., and Close, T. J., Sequencing of 15 622 gene-bearing BACs clarifies the gene-dense regions of the barley genome, The Plant Journal, vol. 84, no. 1, pp. 216 - 227, 2015.
S. Muñoz-Amatriaín, Lonardi, S., Luo, M. C., Madishetty, K., Svensson, J. T., Moscou, M. J., Wanamaker, S., Jiang, T., Kleinhofs, A., Muehlbauer, G. J., Wise, R. P., Stein, N., Ma, Y., Rodriguez, E., Kudrna, D., Bhat, P. R., Chao, S., Condamine, P., Heinen, S., Resnik, J., Wing, R., Witt, H. N., Alpert, M., Beccuti, M., Bozdag, S., Cordero, F., Mirebrahim, H., Ounit, R., Wu, Y., You, F., Zheng, J., Simková, H., Dolezel, J., Grimwood, J., Schmutz, J., Duma, D., Altschmied, L., Blake, T. K., Bregitzer, P., Cooper, L., Dilbirligi, M., Falk, A., Feiz, L., Graner, A., Gustafson, P., Hayes, P. M., Lemaux, P., Mammadov, J., and Close, T. J., Sequencing of 15 622 gene-bearing BACs clarifies the gene-dense regions of the barley genome, The Plant Journal, vol. 84, no. 1, pp. 216 - 227, 2015.
S. Muñoz-Amatriaín, Lonardi, S., Luo, M. C., Madishetty, K., Svensson, J. T., Moscou, M. J., Wanamaker, S., Jiang, T., Kleinhofs, A., Muehlbauer, G. J., Wise, R. P., Stein, N., Ma, Y., Rodriguez, E., Kudrna, D., Bhat, P. R., Chao, S., Condamine, P., Heinen, S., Resnik, J., Wing, R., Witt, H. N., Alpert, M., Beccuti, M., Bozdag, S., Cordero, F., Mirebrahim, H., Ounit, R., Wu, Y., You, F., Zheng, J., Simková, H., Dolezel, J., Grimwood, J., Schmutz, J., Duma, D., Altschmied, L., Blake, T. K., Bregitzer, P., Cooper, L., Dilbirligi, M., Falk, A., Feiz, L., Graner, A., Gustafson, P., Hayes, P. M., Lemaux, P., Mammadov, J., and Close, T. J., Sequencing of 15 622 gene-bearing BACs clarifies the gene-dense regions of the barley genome, The Plant Journal, vol. 84, no. 1, pp. 216 - 227, 2015.