Extraction of rice-planting area and identification of chilling damage by remote sensing technology: a case study of the emerging rice production region in high latitude
Sun, Z; Wang, X; Yamamoto, H; Zhang, J; Tani, H; Zhong, G; Yin, S
Paddy and Water Environment 15(1): 181-191
2017
ISSN/ISBN: 1611-2490
DOI: 10.1007/s10333-016-0539-x
Accession: 064992627
PDF emailed within 0-6 h: $19.90
Related References
Lai GeYing; Yang XingWei; Yao KeMin 1998: GIS-supported general regionalization with remote sensing for rice planting area in Zhejiang province Journal of Nanjing Institute of Meteorology 21(4): 656-661Zhou HongMei; Yang XingWei; Wu JianPing 2000: A study on dynamical monitoring of rice growth vigour and planting areas using geographic information system and remote sensing technology Acta Agriculturae Shanghai 16(1): 9-12
X.W.nXia; Wang ShiTong; Yan XiuFeng 1997: A study on cultivation technology for high yield of rice in the high-latitude region Beijing Agricultural Sciences 16(6): 4-7
Fukushima, A.; Shiratsuchi, H.; Yamaguchi, H.; Fukuda, A. 2011: Effects of Nitrogen Application and Planting Density on Morphological Traits, Dry Matter Production and Yield of Large Grain Type Rice Variety Bekoaoba and Strategies for Super High-Yielding Rice in the Tohoku Region of Japan Plant Production Science 14(1): 56-63
Nozoki, M. 1983: Studies on technology of cultural practices for rice double cropping in Malaysia. VII. Effect of pre-planting soil drying on growth and yield of rice in the Muda Irrigation Area Japanese Journal of Tropical Agriculture 27(1): 8-13
Zhang JiaHua; Yao FengMei; Li BingBai; Yan Hao; Hou YingYu; Cheng GaoFeng; Boken, V. 2011: Progress in monitoring high-temperature damage to rice through satellite and ground-based optical remote sensing Science China-Earth Sciences 54(12): 1801-1811
Zhou HongMei; Yang XingWei 1998: A study on dynamical extraction of crop planting area using method of remote sensing Acta Agriculturae Shanghai 14(3): 1-4
Lyu, R.; Wei, F-Fei.; He, W-Wei.; Chen, B.; Zhang, X-Bo.; Shi, T-Ting.; Jin, L. 2019: Remote sensing extraction method of Codonopsis pilosula planting area in Weiyuan county Zhongguo Zhong Yao Za Zhi 44(19): 4121-4124
Ahmed, M.R.; Rahaman, K.R.; Kok, A.; Hassan, Q.K. 2017: Remote Sensing-Based Quantification of the Impact of Flash Flooding on the Rice Production: a Case Study over Northeastern Bangladesh Sensors 17(10)
T.C.L.i; S.W.n; T.Y.C.ou 2008: The comparison of PCA and discrete rough set for feature extraction of remote sensing image classification " A case study on rice classification, Taiwan Computational Geosciences 12(1): 1-14
Nakazima, Y.; Seki, M.; Sawada, M.; Hamada, Y. 1991: Stabilization of early-planting cultivation of rice in the west Mikawa region: II. The optimum cultivating period and the method of fertilizer applications for high-quality rice cultivar, Aoinokaze Research Bulletin of the Aichi-ken Agricultural Research Center 1991(23): 91-99
Choi, B.S.; Lee, D.C.; Yu, K.R.; Park, C.K. 1983: Survey of the rice damage by smaller rice leaf miner as affected by cultural practices in the medium-high mountainous area Research Reports, Office of Rural Development, S Korea, Soil Fertilizer, Crop Protection, Mycology and Farm Products Utilization 25: 116-122
Waisurasingha, C.; Aniya, M.; Hirano, A.; Sang-arun, J.; Sommut, W. 2008: Application of Remote Sensing and GIS for Improving Rice Production in Flood-prone Areas: A Case Study in Lower Chi-River Basin, Thailand Jarq-Japan Agricultural Research Quarterly 42(3): 193-201
Wang, M; Cui, Q; Wang, J; Ming, D; Lv, G 2017: Raft cultivation area extraction from high resolution remote sensing imagery by fusing multi-scale region-line primitive association features Isprs Journal of Photogrammetry and Remote Sensing 123: 104-113
Ryu ChanSeok; Suguri, M.; Umeda, M.; Inamura, T. 2004: Estimation of nitrogen content of rice plant using remote sensing technology Journal of the Japanese Society of Agricultural Machinery 66(2): 85-96
Bai, J-Qing.; Gao, S.; Wang, P-Fei.; Wang, L.; Liu, W-Wei.; Wang, X-Ping.; Zhang, X-Bo.; Shi, T-Ting. 2019: Bletilla striata planting area in Ningshan county extraction based on multi-temporal remote sensing images Zhongguo Zhong Yao Za Zhi 44(19): 4129-4133
Sakaiya, E.; Seito, F.; Kaneya, H.; Takagi, T.; Kinota, N.; Chubachi, T.; Takeda, Y.; Murakami, A.; Kumagai, K.; Togasi, M.; Ueno, M.; Sato, N.; Taira, T.; Saito, H.; Kondo, M.; Yasuda, M.; Nozoe, T. 1998: High quality rice production technology in the Tohoku District - Relationship between cultivation condition and physico-chemical properties of rice Tohoku Nogyo Shikenjo Kenkyu Shiryo = Miscellaneous Publication of the Tohoku National Agricultural Experiment Station 22: 47-113
Konokhova, V.; Alimbetov, K. 1980: Progressive technology for contemporary rice growing (experience of high rice yields on the Chirkeiliiskii State Farm, Terenozek District, Kzyl-Orda Region, Kazakh SSR) Gidrotekhnika i melioratsiia: (4) 84-87
SunHuaSheng; HuangJingFeng; LiBo; WangHongShuo 2008: Study on the regionalization of paddy rice information acquirement through remote sensing technology in China Scientia Agricultura Sinica: 12, 4039-4047
Wang XiuZhen; Wang RenChao; Huang JingFeng 2002: Derivative spectrum remote sensing and its application in measurement of rice agronomic parameters of rice Transactions of the Chinese Society of Agricultural Engineering 18(1): 9-13