Modeling of CO2 Emission from Soil in Greenhouse |
Lee, Dong-Hoon
(Department of Bio-Mechatronic Engineering, Sungkyunkwan University)
Lee, Kyou-Seung (Department of Bio-Mechatronic Engineering, Sungkyunkwan University) Choi, Chang-Hyun (Department of Bio-Mechatronic Engineering, Sungkyunkwan University) Cho, Yong-Jin (Department of Bio-Mechatronic Engineering, Sungkyunkwan University) Choi, Jong-Myoung (Department of Horticulture, Chungnam National University) Chung, Sun-Ok (Department of Biosystems Machinery Engineering, Chungnam National University) |
1 | Park, S.A, M.G. Kim, M.H. Yoo, M.M. Oh, and K.C. Son. 2010. Comparison of indoor removal capability of five foliage plants by photosynthesis. Kor. J. Hort. Sci. Technol. 28: 864-870. 과학기술학회마을 |
2 | Pohlheim, H. and A. Heissnet. 1999. Optimal control of greenhouse climate using real-world weather data end evolutionary algorithms. Proc. Genetic Evolutionary Computation Conf. 1672-1677. |
3 | Shuai, X., Z. Zhou, and R.S. Yost. 2003. Using segmented regression models to fit soil nutrient and soybean grain yield changes due to liming. J. Agric. Biol. Environ. Stat. 8:240-252. DOI |
4 | Smart, D.R. and P. Josep. 2005. Short-term emissions from planted soil subject to elevated and simulated precipitation. Appl. Soil Ecol. 28:247-257. DOI |
5 | Subke, J.A., R. Markus, and D.T. John. 2003. Explaining temporal variation in soil efflux in a mature spruce forest in Southern Germany. Soil Biol. Biochem. 35:1467-1483. DOI |
6 | Takahashi, A., T. Hiyama, H.A. Takahashic, and Y. Fukushima. 2004. Analytical estimation of the vertical distribution of production within soil: Application to a Japanese temperate forest. Agr. Forest Meteorol. 126:223-235. DOI |
7 | Tang, J., D.D. Baldocchi, Y. Qi, and L. Xu. 2003. Assessing soil efflux using continuous measurements of profiles in soils with small solid-state sensors. Agr. Forest Meteorol. 118:207-220. DOI |
8 | Zhang, H., W. Xiaoke, F. Zongwei, S. Wenzhi, L. Wenzhao, and O. Zhiyun. 2007. Multichannel automated chamber system for continuous monitoring of exchange between the agro-ecosystem or soil and the atmosphere. Acta Ecol. Sin. 27:1273-1282. DOI |
9 | Jassal, R.S., T.A. Black, G.B. Drewitt, M.D. Novak, D. Gaumont- Guay, and Z. Nesic. 2004. A model of the production and transport of in soil: Predicting soil concentrations and efflux from a forest floor. Agr. Echosyst. Environ. 124:219-236. |
10 | Jeong, C.S, J.N. Park, and J.H. Kyoung. 2006. Effect of high short-term treatment on the respiration characteristics and quality of broccoli. Kor. J. Hort. Sci. Technol. 24:447-451. 과학기술학회마을 |
11 | Li, Y.-L., D. Otieno, K. Owen, Y. Zhang, J. Tenhunen, X.-Q. Rao, and Y.-B. Lin. 2008. Temporal variability in soil emission in an orchard forest ecosystem. Pedosphere 18: 273-283. DOI |
12 | Kabwe, L.K., M.J. Hendry, G.W. Wilson, and J.R. Lawrence. 2002. Quantifying fluxes from soil surfaces to the atmosphere. J. Hydrol. 260:1-14. DOI |
13 | Kornet, O., A.V. Ooster, and M. Hulsbos. 2007. Design and performance of a measuring system for exchange of a greenhouse crop at different light levels. Biosyst. Eng. 97: 219-228. DOI |
14 | Lee, D.H., K.S. Lee, C.H. Choi, H.J. Kim, S.O. Chung, and Y.J. Cho. 2011. Prediction of emission from soil for optimal greenhouse control. Proc. Amer. Soc. Agr. Biol. Eng. No. 1111628. |
15 | Lou, Y., Z. Li, T. Zhang, and Y. Liang. 2004. emissions from subtropical arable soils of China. Soil Biol. Biochem. 36:1835-1842. DOI |
16 | Maestre, F.T. and J. Cortina. 2003. Small-scale spatial variation in soil efflux in a Mediterranean semiarid steppe. Appl. Soil Ecol. 23:199-209. DOI |
17 | Ouyang, Y. and C. Zheng. 2000. Surficial processes and flux in soil ecosystem. J. Hydrol. 234:54-70. DOI |
18 | Berman, N.G., W.K. Wong, S. Bhasin, and E. Ipp. 1996. Application of segmented regression models for biomedical studies. Am. J. Physiology 270:723-732. |
19 | Caetano, M.A.L., D.F.M. Gherardi, and T. Yoneyama. 2008. Optimal resource management control for emission and reduction of the greenhouse effect. Ecol. Model. 213:119-126. DOI |
20 | Camarda, M., S. Gurrieri, and M. Valenza. 2009. Effects of soil gas permeability and recirculation flux on soil flux measurements performed using a closed dynamic accumulation chamber. Chem. Geol. 265:387-393. DOI |
21 | Chen, F. and Y. Tang. 2010. Towards constraint optimal control of greenhouse climate. In Proc. LSMS/ICSEE p. 439-450. |
22 | Cox, F.R. 1996. Economic phosphorus fertilization using a linear response and plateau function. Commun. Soil Sci. Plan. 27: 531-543. DOI |
23 | DeSutter, T.M., T.J. Sauer, and T.B. Parkin. 2006. Porous tubing for use in monitoring soil concentrations. Soil Biol. Biochem. 38:2676-2681. DOI |
24 | Fang, C. and J.B. Moncrieff. 1999. A model for soil production and transport 1: Model development. Agr. Forest Meteorol. 95:225-236. DOI |
25 | Filipovic, D., S. Kosutic, Z. Gospodaric, R. Zimmer, and D. Banaj. 2006. The possibilities of fuel savings and the reduction of emissions in the soil tillage in Croatia. Agr. Echosyst. Environ. 115:290-294. DOI |
26 | Granieri, D., G. Chiodini, W. Marzocchi, and R. Avino. 2003. Continuous monitoring of soil diffuse degassing at Phlegraean fields (Italy): Influence of environmental and volcanic parameters. Earth Planet Sc. Lett. 212:167-179. DOI |