[1] 陆长梅,闫茂华,王蔓丽,等.低能重离子诱导的狐米草(Spartina patens)突变系生物量与光合能力比较[J].核农学报,2007,21(4):339-344
[2] Riasi A,Mesgaran M D,Stern M D,et al.Chemical composition,in situ ruminal degradability and post-ruminal disappearance of dry matter and crude protein from the halophytic plants Kochia scoparia,Atriplex dimorphostegia,Suaeda arcuata and Gamanthus gamacarpus[J].Animal Feed Science and Technology,2008,141:209-219
[3] Hopkins D L,Nicholson A.Meat quality of wether lambs grazed on either saltbush(Atriplex nummularia)plus supplements or lucerne(Medicago sativa)[J].Meat Science,1999,51:91-95
[4] 王光,钦佩,万树文,等.互花米草在奶牛饲料中的应用研究[J].南京大学学报(自然科学版),2007,43:224-229
[5] Mark W H,Irving A M,Karen L M.Species and population variation to salinity stress in Panicum hemitomon,Spartina patens and Spartina alterniflora:morphological and physiological constraints[J].Environmental and Experimental Botany,2001,46:277-297
[6] 仲崇信.大米草简史及国外研究概况[A].见:米草研究的进展-22 年来的研究成果论文集[C].南京大学学报,1985.40(2):1230
[7] Ashour N I,Serag M S,Abd El-Haleem A K,et al.Forage production from three grass species under saline irrigation in Egypt[J].Journal of Arid Environments,1997,37(2):299-307
[8] 周长芳,钦佩,谢民.离子束注入对狐米草几种生理生化指标的影响[J].植物生理学通讯,2002,38(3):237-239
[9] 闫茂华,彭雪梅,陆长梅,等.狐米草低能重离子诱变株系的抗旱能力比较[J].安徽农业科学,2007,35(6):1585-1586
[10] 蔡小宁,佘建明,钦佩,等.狐米草离体培养植株再生[J].江苏农业学报,2006,16(3):143-147
[11] Glenn E P,Coates W E,Riley J J,et al.Salicornia bigelovii Torr a seawater irrigated forage for goats[J].Animal Feed Science and Technology,1992,40:21-30
[12] Swingle R S,Glenn E P,Squires V.Growth performance of lambs fed mixed diets containing halophyte ingredients[J].Animal Feed Science Technology,1996,63:137-148
[13] Attia F M,Alsobayel A A,Kriadees M S,et al.Nutrient composition and feeding value of Salicomia bigelovii torr meal in broiler diets[J].Animal Feed Science Technology,1997,65:257-263
[14] Kraidees M S,Abouheif M A,Al-Saiady M Y,et al.The effect of dietary inclusion of halophyte Salicornia bigelovii Torr on growth performanceand carcass characteristics of lambs[J].Animal Feed Science and Technology,1998,76:149-159
[15] 杨胜.饲料分析及饲料质量检测技术[M].北京:中国农业大学出版社,2007.52-53,70-74
[16] Goto I,Minson D.Prediction of the dry matter digestibility of tropical grasses using a pepsin-cellulase essay[J].Animal Feed Science and Technology,1997,2:247-253
[17] Alpert P.Nutrient sharing in natural clonal fragments of Fragaria chiloensis[J].Ecology,1996,84:395-406
[18] Alpert P.Clonal integration in Fragaria chiloensis differs between populations:ramets from grassland are selfish[J].Oecologia,1999,120:69-76
[19] 吴雅静.海蓬子的利用价值与开发前景[J].养殖与饲料,2005(8):16-18
[20] 李志坚,胡跃高.饲用黑麦生物学特性及其产量营养动态变化[J].草业学报,2004,13(1):45-51
[21] 蒋福兴,陆宝树,仲崇信.新引进三种米草植物的生物学特性及其营养成分(初报)[A].见:米草研究的进展-22年来的研究成果论文集[C].南京大学学报,1985.302-309
[22] 潘伟彬,陈志彤,陈恩,等.5个热带豆科牧草洗涤纤维的生育期动态及其施肥响应[J].草地学报,2008,16(6):652-658
[23] 张吉旺,王空军,胡昌浩.收获期对玉米饲用营养价值的影响[J].玉米科学,2000,8:33-35
[24] 宋顺达,宋永达.两种紫花苜蓿营养成分比较[J].当代畜牧,2008,(11):41-42
[25] 周志平,顾洪如,沈益新,等.青刈黑麦抽穗期干物质体外消化率与细胞壁结构物质的关系[J].江苏农业学报,2008,24(1):71-74
[26] Nelson T S,Kirby L K,Johnson Z B.Effect of minerals on the incidence of leg abnormalities in growing broliler chicks[J].Nutrition Research,1990,5(10):525-533
[27] 魏凤仙,白献晓,李绍钰,等.低磷加植酸酶日粮不同钙磷比对生长猪生产性能和血清学指标的影响[J].华北农学报,2007,22(5):47-50
[28] 王衍发.泌乳母牛日粮最优的钙磷比[J].饲料与畜牧,1989,(8):11-12
[29] 杜占池,杜菁昀.几种优良人工牧草矿质元素含量的比较研究[J].四川草原,2003,(1):26-41 |
