Search Results

You are looking at 21 - 30 of 48 items for :

  • "crop modeling" x
  • Refine by Access: All x
Clear All
Free access

Marc W. Van Iersel, Sue Dove, Jong-Goo Kang, and Stephanie E. Burnett

and physiology of vinca ( Catharanthus roseus ) Proc. SNA Res. Conf. 52 92 96 Wallach, D. 2006 Evaluating crop models 11 54 Wallach D. Makowski D. Jones J.W. Working with dynamic crop

Free access

Chung-Liang Chang and Ming-Fong Sie

, they are far more common. With ongoing development in computer technology, crop models are gradually becoming more complex. The Decision Support System for Agro-technology Transfer developed by the International Benchmark Sites Network for Agro

Full access

John D. Lea-Cox, William L. Bauerle, Marc W. van Iersel, George F. Kantor, Taryn L. Bauerle, Erik Lichtenberg, Dennis M. King, and Lauren Crawford

, indicator species (i.e., species that have high or low water use) can inform irrigation schedules for plants of similar water use ( Yeager et al., 2007 ). For this reason, we are developing crop models that include indicator species in the decision support

Free access

Jeffrey Adelberg, Maria Delgado, and Jeffrey Tomkins

water content of Cymbidium protocorm-like body and growth. In: L.F.M. Marcelis (ed.). Crop models in protected cultivation Acta Hort. 456 61 66 Kane, M. 2005 Shoot culture procedures 145 157 Trigiano R

Open access

Thibault Nordey, Elias Shem, and Joel Huat

. Bussière, F. Cabidoche, Y.M. Cellier, P. Debaeke, P. Gaudillère, J.P. Hénault, C. Maraux, F. Seguin, B. Sinoquet, H. 2003 An overview of the crop model stics Eur. J. Agron. 18 309 332 Clearwater, M.J. Lowe, R.G. Hofstee, B.J. Barclay, C. Mandemaker, A

Full access

Erik Lichtenberg, John Majsztrik, and Monica Saavoss

. Bissey, L. 2010 A Specialty Crops Research Project: Using Wireless Sensor Networks and Crop Modeling for Precision Irrigation and Nutrient Management in Nursery, Greenhouse and Green Roof Systems. Proc. Southern Nursery Assn. Res. Conf. 55

Full access

James E. Faust, Pamela C. Korczynski, and Uttara C. Samarakoon

greenhouses: Energy saving in protected cultivation Acta Hort. 245 377 383 Critten, D.L. 1993 A review of the light transmission into greenhouse crops: Greenhouse crop models Acta Hort. 328 9 31 Deregibus, V.A. 1985 Tillering responses to enrichment of red

Open access

Xiaotao Ding, Liyao Yu, Yuping Jiang, Shaojun Yang, Lizhong He, Qiang Zhou, Jizhu Yu, and Danfeng Huang

, 2006 ) were developed. Xu et al. (2010) integrated some of those parameters and demonstrated the precise prediction of cucumber and pepper growth in a greenhouse ( Xu et al., 2010 ). All of the crop model studies mainly focus on increasing

Open access

Dewayne L. Ingram, Charles R. Hall, and Joshua Knight

modeled using LCA ( Table 1 ). The CF was calculated for this 8-week crop model as 0.14 kg CO 2 e with variable costs of $0.67. Fifty-seven percent of CF and 43% of variable costs in the model were from the container and shuttle tray. Heating contributed

Full access

Alberto Pardossi and Luca Incrocci

Can. Biosystems Eng. 46 1.1 1.6 Singels, A. Smith, M.T. 2006 Provision of irrigation scheduling advice to small-scale sugarcane farmers using a web-based crop model and cellular technology: A South African case study Irr. Drainage 53 363 372