| [1] 王鑫,马永祥,李娟. 紫花苜蓿营养成分及主要生物学特性[J]. 草业科学,2003,20(10):39-41
[2] 张杰,贾志宽,韩清芳. 不同养分对苜蓿茎叶比和鲜干比的影响[J]. 西北农业学报,2007,16(4):121-125
[3] 徐炜,师尚礼,祁娟,等. 不同添加剂对夏河县紫花苜蓿青贮品质的影响[J]. 草地学报,2014,22(2):414-419
[4] 王加亭,赵恩泽. 2013年我国牧草种植生产情况[J]. 中国畜牧业,2014,(24):33-34
[5] 新华网, 中共中央国务院关于加大改革创新力度加快农业现代化建设的若干意见[EB/OL]. http://news.xinhuanet.com/politics/2015-02/01/c_1114209962.htm,2015-02-01/2015-04-10
[6] 荷斯坦奶农俱乐部网, 2014中国进口苜蓿干草超88万吨美占96%同比增17%[EB/OL]. http://www.hesitan.com/dingniu_focus/2015-01-29/141619.chtml,2015-01-29/2015-04-10
[7] 陈谷,颜俤,邰建辉,等. 苜蓿质量预测方法研究进展[J]. 草原与草坪,2012,32(4):86-89
[8] Montazar, Aliasghar. Predicting alfalfa hay production as related to water distribution functions[J]. Irrigation & Drainage,2010,59(2):189-202
[9] Olfert K, Olfert K. Predicting Forage Nutritive Value from Height and Maturity of Alfalfa in Saskatchewan, Canada[J]. Peaq,2003:57-67
[10] Hintz R W, Albrecht K A. Prediction of Alfalfa Chemical Composition from Maturity and Plant Morphology[J]. Crop Science,1991,31(6):1561-1565
[11] J García, L Pérez-Alba, C Alvarez, et al. Prediction of the nutritive value of lucerne hay in diets for growing rabbits[J]. Animal Feedence & Technology,1995,54(1):33-44
[12] Santillanocázares J,Carmonavictoria M,Contrerasgovea F E, et al. Applicability of Predictive Equations for Alfalfa Quality to Southwestern United States and Northern Mexico[J]. Crop Science,2014,54:2880-2885
[13] Sulc R M, Albrecht K A, Cherney J H, et al. Field Testing a Rapid Method for Estimating Alfalfa Quality[J]. Agronomy Journal,1997,89(6):952-957
[14] Parsons D, Cherney J H, Gauch H G. Alfalfa Fiber Estimation in Mixed Stands and Its Relationship to Plant Morphology[J]. Crop Science,2006a,46(6):2446-2452
[15] Parsons D, Cherney J H, Gauch H G. Estimation of Spring Forage Quality for Alfalfa in New York State[J]. Plant Health Progress,2006b,4(1):1-7
[16] Parsons D, Peterson P R, Cherney J H. Estimation of Nutritive Value of Spring Alfalfa-Grass Mixtures using In-Field Measurements and Growing Degree Data[J]. Forage & Grazinglands,2013,12(1):1-7
[17] Sanderson M A. Predictors of Alfalfa Forage Quality:Validation with Field Data[J]. Crop Science,1992,32(1):245-250
[18] Fick G W, Onstad D W. Statistical models for predicting alfalfa herbage quality from morphological or weather data[J]. Journal of Production Agriculture,1988,1(2):160-166
[19] Andrzejewska J, Contreras-Govea F E, Albrecht K A. Field prediction of alfalfa (Medicago sativa L.) fibre constituents in northern Europe[J]. Grass & Forage Science,2014,69(69):348-355
[20] Hakl J, Šantru??ek J, Fuksa P, et al. The use of indirect methods for the prediction of lucerne quality in the first cut under the conditions of Central Europe[J]. Czech Journal of Animal Science,2010,55(6):258-265
[21] Kalu B A, Fick G W. Quantifying Morphological Development of Alfalfa for Studies of Herbage Quality[J]. Crop Science,1981,21(2):267-271
[22] Owens V N, Albrecht K A, Hintz R W. A rapid method for predicting alfalfa quality in the field[J]. Journal of Production Agriculture,1995,8(4):491-495
[23] 任继周. 分类、聚类与草原类型[J]. 草地学报,2008,16(1):4-10
[24] 侯扶江,南志标,任继周. 作物-家畜综合生产系统[J]. 草业学报,2009,18(5):211-234
[25] 姜慧新,沈益新,翟桂玉,等. 施磷对紫花苜蓿分枝生长及产草量的影响[J]. 草地学报,2009,17(5):588-592.
[26] 程积民,程杰,高阳. 半干旱区退耕地紫花苜蓿生长特性与土壤水分生态效应[J]. 草地学报,2011,19(4):565-569
[27] 徐磊. 陇东黄土高原农业系统的环境适应性和生产力调控[D]. 兰州:兰州大学,2015:71-88
[28] 谢琮. 基于小麦群体指标及氮营养状况的籽粒产量和品质预测研究[D]. 南京:南京农业大学,2011:6-8
[29] 何理. 水稻叶片氮素含量及产量、相关品质高光谱预测模型的初步研究[D]. 扬州:扬州大学,2014:3-5
[30] Mishra A, Hansen J W, Dingkuhn M, et al. Sorghum yield prediction from seasonal rainfall forecasts in Burkina Faso[J]. Agricultural & Forest Meteorology,2008,148(11):1798-1814 |
