[1] 曹宏鑫,赵锁劳,葛道阔,等.作物模型发展探讨[J].中国农业科学, 2011(17):3520-3528.
[2] 林忠辉,莫兴国,项月琴.作物生长模型研究综述[J].作物学报,2003 (5):750-758.
[3] 陈恩波.作物生长模拟研究综述[J].中国农学通报,2009,25(22): 114-117.
[4] Raes D, Steduto P, Hsiao T C, et al. AquaCrop- The FAO crop model to simulate yield response to water II. Main algorithms and software description[J]. Agronomy Journal,2009,101(3):438-447.
[5] Hsiao T C, Heng L, Steduto P, et al. AquaCrop- The FAO crop model to simulate yield response to water: III. Parameterization and testing for maize[J]. Agronomy Journal,2009,101(3):448-459.
[6] Steduto P, Hsiao T C, Raes D, et al. AquaCrop- The FAO crop model to simulate yield response to water: I. Concepts and underlying principles[J]. Agronomy Journal,2009,101(3):426-437.
[7] Zeleke K T, Luckett D, Cowley R. Calibration and testing of the FAO AquaCrop model for canola[J]. Agronomy Journal,2011,103 (6):1610-1618.
[8] Abedinpour M, Sarangi A, Rajput T B S, et al. Performance evaluation of AquaCrop model for maize crop in a semi- arid environment[J]. Agricultural Water Management,2012(110):55-66.
[9] Confalonieri R, Acutis M, Bellocchi G, et al. Multi- metric evaluation of the models WARM, CropSyst, and WOFOST for rice [J]. Ecological Modelling,2009,220(11):1395-1410.
[10] Araya A, Habtu S, Hadgu K M, et al. Test of AquaCrop model in simulating biomass and yield of water deficient and irrigated barley (Hordeum vulgare)[J]. Agricultural Water Management,2010,97(11): 1838-1846.
[11] Farahani H J, Izzi G, Oweis T Y. Parameterization and evaluation of the AquaCrop model for full and deficit irrigated cotton[J]. Agronmy Journal,2009,101(3):469-476.
[12] Heng L K, Hsiao T, Evett S, et al. Validating the FAO AquaCrop model for Irrigated and Water Deficient Field Maize[J]. Agronomy Journal,2009,3(101):488-498.
[13] Geerts S, Raes D, Garcia M, et al. Simulating yield response of quinoa to water availability with AquaCrop[J]. Agronomy Journal, 2009,101(3):499-508.
[14] Salemi H, Soom M A M, Lee T S, et al. Application of AquaCrop model in deficit irrigation management of winter wheat in arid region[J]. African Journal of Agricultural Research,2011,6(10): 2204-2215.
[15] Salemi H, Soom M A M, Mousavi S, et al. Irrigated silage maize yield and water productivity response to deficit irrigation[J]. Polish Journal of Environmental Studies,2011,20(5):1295-1303.
[16] Araya A, Keesstra S D, Stroosnijder L. Simulating yield response to water of Teff (Eragrostis tef) with FAO's AquaCrop model[J]. Field Crops Research,2010,116(1-2):196-204.
[17] García- Vila M, Fereres E, Mateos L, et al. Deficit irrigation optimization of cotton with AquaCrop[J]. Agronmy Journal,2009, 101(3):477-487.
[18] Karunaratne A S, Azam- Ali S N, Izzi G, et al. Calibration and validation of FAO- AquaCrop model for irrigated and water deficient Bambara groundnut[J]. Experimental Agriculture,2011,47 (3):509-527.
[19] Andarzian B, Bannayan M, Steduto P, et al. Validation and testing of the AquaCrop model under full and deficit irrigated wheat production in Iran[J]. Agricultural Water Management,2011,100(1): 1-8.
[20] Berhanua A, Nele D, Raes D, et al. Sowing strategies for Barley (Hordeum vulgare L.) based on modelled yield response to water with AquaCrop[J]. Experimental Agriculture,2012,48(2):252-271.
[21] García- Vila M, Fereres E. Combining the simulation crop model AquaCrop with an economic model for the optimization of irrigation management at farm level[J]. European Journal of Agronomy,2012,36(1):21-31.
[22] Hussein F, Janat M, Yakoub A. Simulating cotton yield response to deficit irrigation with the FAO AquaCrop model[J]. Spanish Journal of Agricultural Research,2011,9(4):1319-1330.
[23] Karunaratne A, Crout N, Azam-Ali S, et al. Modelling the response of bambara groundnut: A key underutilized crop in agricultural systems[C]. Madrid, Spain:2009.
[24] Khoshravesh M, Mostafazadeh- Fard B. AquaCrop model simulation under different irrigation water and nitrogen strategies [J]. Water Science And Technology,2012,67(1):232-238.
[25] Mainuddin M, Kirby M, Hoanh C T. Water productivity responses and adaptation to climate change in the lower Mekong basin[J]. Water InternationalWater International,2012,37(1):53-74.
[26] Nkomozepi T, Chung S. Assessing the trends and uncertainty of maize net irrigation water requirement estimated from climate change projections for Zimbabwe[J]. Agricultural Water Management,2012(111):60-67.
[27] Stricevic R, Cosic M, Djurovic N, et al. Assessment of the FAO AquaCrop model in the simulation of rainfed and supplementally irrigated maize, sugar beet and sunflower[J]. Agricultural Water Management,2011,98(10):1615-1621.
[28] Tsegay A, Raes D, Geerts S, et al. Unravelling crop water productivity of Tef (Eragrostis Tef(ZUCC.) Trotter) through AquaCrop in northern Ethiopia[J]. Experimental Agriculture,2012, 48(2):222-237.
[29] 李会,刘钰,蔡甲冰,等.AquaCrop 模型的适用性及应用初探[J].灌溉排水学报,2011,30(3):28-33.
[30] 付驰,李双双,李晶,等.AquaCrop作物模型在松嫩平原春麦区的校正和验证[J].灌溉排水学报,2012(5):99-102.
[31] 李子忠,徐洋,卢宪菊,等.AquaCrop模型在大葱生物量和土壤贮水量模拟中的应用和验证[J].中国农业大学学报,2011,16(4):59-66.
[32] 杜文勇,何雄奎,Shamaila Z,等.冬小麦生物量和产量的 AquaCrop模型预测[J].农业机械学报,2011,42(4):174-178.
[33] 韩健.AquaCrop模型在晋中盆地玉米栽培研究中的应用[D].太原:山西大学,2012.
[34] 项艳.AquaCrop模型在华北地区夏玉米生产中的应用研究[D].泰安:山东农业大学,2009.
[35] Geerts S, Raes D, Garcia M, et al. Modeling the potential for closing quinoa yield gaps under varying water availability in the Bolivian Altiplano[J]. Agricultural Water Management,2009,96(11): 1652-1658.
[36] Geerts S, Raes D, Garcia M. Using AquaCrop to derive deficit irrigation schedules[J]. Agricultural Water Management,2010,98(1): 213-216.
[37] Araya A, Stroosnijder L, Habtu S, et al. Risk assessment by sowing date for barley (Hordeum vulgare) in northern Ethiopia[J]. Agricultural and Forest Meteorology,2012(154-155):30-37.
[38] Erkossa T, Menker M, Betrie G D. Effects of bed width and planting date on water productivity of wheat grown on vertisols in the Ethiopian Highlands[J]. Irrigation and Drainage,2011(60):635- 643.
[39] Vanuytrecht E, Raes D, Willems P. Considering sink strength to model crop production under elevated atmospheric CO2[J]. Agricultural and Forest Meteorology,2011,151(12):1753-1762.
[40] Zinyengere N, Mhizha T, Mashonjowa E, et al. Using seasonal climate forecasts to improve maize production decision support in Zimbabwe[J]. Agricultural and Forest Meteorology,2011,151(12): 1792-1799.
|