高寒地区垂穗披碱草优异种质资源筛选

doi:10.3864/j.issn.0578-1752.2013.04.018

Abstract

Abstract: 【Objective】 This study aimed to provide basic materials for parents matching and synthetic variety breeding of E. nutans with high yield and good quality in alpine region. 【Method】 Through field experiments, hay yield traits, crude protein (CP), water soluble carbohydrate (WSC), neutral detergent fiber (NDF) and acid detergent fiber (ADF) of 11 E. nutans populations from Qinghai-tibet plateau were investigated and appraised. 【Result】 The variations of eleven E. nutans populations were great in hay yield characters and nutritive qualities, the coefficient of variation of hay yield is the largest, which is 52.13%, while the variation coefficient of NDF is the smallest, which is 3.97%. A single character comparison between different populations showed that P8 had high hay yield, being 2971.66 kg•hm-2, while the highest CP was 22.61% for P1, which also has the lowest NDF and ADF, being 59.75% and 36.26%, respectively; P3, P4, P5, P6 and P7 had high sugar content, being 5.18%, 4.46%, 5.53%, 5.79% and 6.15%, respectively. 【Conclusion】 Based on the single character, P8 can be used as the parent material of high yield, P1 and P9 can be used as the parent materials of high nitrogen and low fiber, respectively, while P3, P4, P5, P6 and P7 can be used as the parent materials of high sugar, the mentioned materials all can participate in the conventional hybrid breeding. Based on yield and nutrient quality characters, P1 is of middle yield, high nitrogen and low fiber material, P2 is of high yield and middle nitrogen materials, P8, P9 and P10 are of high yield and middle sugar materials, while P3 and P4 is of middle yield and high sugar materials. The above mentioned materials as high yield and good quality materials under selective breeding can be used to develop new varieties rapidly.

Key words: alpine region , Elymus nutans , yield , nutritional quality , parent selection

CHEN Hong-Yang, FU Hua, HUANG De-Jun, ZHOU Hong-Jin. Selection of Excellent Germplasm Resources of Elymus nutans in Alpine Region[J].Scientia Agricultura Sinica, 2013, 46(4): 841-848.

References

[1]肖红艳, 刘红, 李波, 袁兴中, 孙书存, 陈忠礼. 亚高山草甸冬夏季牧场土壤动物群落多样性. 中国农业科学, 2012, 45(2): 292-301.

Xiao H Y, Liu H, Li B, Yuan X Z, Sun S C, Chen Z L. Soil fauna diversity in the rotational grazing pasture in subalpine meadow. Scientia Agricultura Sinica, 2012, 45(2): 292-301. (in Chinese)

[2]韩潼, 牛得草, 张永超, 江世高, 傅华. 施肥对玛曲县高寒草甸植物多样性及生产力的影响. 草业科学, 2011, 28(6): 926-930.

Han T, Niu D C, Zhang Y C, Jiang S G, Fu H. Effects of fertilization on characteristics of Maqu alpine meadow communities and production. Pratacultural Science, 2011, 28(6): 926-930. (in Chinese)

[3]刘建秀, 朱志红, 郑伟. 高寒草甸放牧扰动与两种植物的反应研究. 西北植物学报, 2005, 25(10): 2043-2047.

Liu J X, Zhu Z H, Zheng W. Reponses of two plant species to grazing practice in alpine and cold meadow under grazing and grazing-suspension. Acta Botanica Boreali-occidentalia Sinica, 2005, 25(10): 2043-2047. (in Chinese)

[4]王向涛, 张世虎, 陈懂懂, 谈嫣蓉, 孙大帅, 杜国祯. 不同放牧强度下高寒草甸植被特征和土壤养分变化研究. 草地学报, 2010, 18(4): 510-516.

Wang X T, Zhang S H, Chen D D, Tan Y R, Sun D S, Du G Z. The effects of natural grazing intensity on plant community and soil nutrients in alpine meadow. Acta Agrestia Sinica, 2010, 18(4): 510-516. (in Chinese)

[5]王桃. 高寒牧区36种燕麦营养生态特性及生产效能评价[D]. 兰州: 兰州大学, 2010.

Wang T. Evaluation on nutritional and ecological characteristics and productive efficiency of 36 Oat varieties in alpine meadow region[D]. Lanzhou: Lanzhou University, 2010. (in Chinese)

[6]Gu M H, Dong S K, Wang T, Xie Z K. Interspecific interactions under fertilization among Elymus nutans, Festuca sinensis and Festuca ovina on the eastern Qinghai-Tibetan plateau. Plant Species Biology, 2012, 27: 159-163.

[7]祁娟, 徐柱, 马玉宝, 王海清, 李临杭. 披碱草属六种野生牧草苗期抗旱胁迫的生理变化. 中国草地学报, 2008, 30(5): 18-24.

Qi J, Xu Z, Ma Y B, Wang H Q, Li L H. Physiological change of six wild species in Elymus under drought stress at seedling stage. Chinese Journal of Grassland, 2008, 30(5): 18-24. (in Chinese)

[8]张永超, 牛得草, 韩潼, 陈鸿洋, 傅华. 补播对高寒草甸生产力和植物多样性的影响. 草业学报, 2012, 21(2): 305-309.

Zhang Y C, Niu D C, Han T, Chen H Y, Fu H. Effect of reseeding on productivity and plant diversity on alpine meadows. Acta Prataculturae Sinica, 2012, 21(2): 305-309. (in Chinese)

[9]李艳琴, 徐敏云, 王振海, 于海良, 邵长虹. 牧草品质评价研究进展. 安徽农业科学, 2008, 36(11): 4485-4486, 4546.

Li Y Q, Xu M Y, Wang Z H, Yu H L, Shao C H. Research advances in evaluation of forage quality. Journal of Anhui Agricultural Sciences, 2008, 36(11): 4485-4486, 4546. (in Chinese)

[10]Beever D E, Terry R A, Cammell S B, Wallace A S. The digestion of spring and autumn harvested perennial ryegrass by sheep. Journal of Agricultural Science, 1978, 90: 463-470.

[11]Bailey R W. Pasture quality and ruminant nutrition. I. Carbohydrate composition of ryegrass varieties grown as sheep pastures. New Zealand Journal of Agricultural Research, 1964, 7: 496-507.

[12]Hight G K, Sinclair D P, Lancaster R J. Some effects of shading and of nitrogen fertiliser on the chemical composition of freezedried and oven dried herbage, and on the nutritive value of ovendried herbage fed to sheep. New Zealand Journal of Agricultural Research, 1968, 11: 286-302.

[13]Carruthers V R, Neil P G. Milk production and ruminal metabolites from cows offered two pasture diets supplemented with nonstructural carbohydrate. New Zealand Journal of Agricultural Research, 1997, 40: 513-521.

[14]Ellis J L, Dijkstra J, France J, Parsons A J, Edwards G R, Rasmussen S, Kebreab E, Bannink A. Effect of high-sugar grasses on methane emissions simulated using a dynamic model. Journal of Dairy Science, 2012, 95(1): 272-285.

[15]Purcell P J, O’Brien M, Navarro-Villa A, Boland T M, McEvoy M, Grogan D, O'Kiely P. In vitro rumen methane output of perennial ryegrass varieties and perennial grass species harvested throughout the growing season. Grass and Forage Science, 2012, 67(2): 280-298.

[16]Fulkerson W J, Donaghy D J. Plant-soluble carbohydrate reserves and senescence -key criteria for developing an effective grazing management system for ryegrass-based pastures: a review. Australian Journal of Experimental Agriculture, 2001, 41: 261-275.

[17]郑凯, 顾洪如, 沈益新, 丁成龙. 牧草品质评价体系及品质育种的研究进展. 草业科学, 2006, 23(5): 57-61.

Zheng K, Gu H R, Shen Y X, Ding C L. Evaluation system of forage quality and research advances in forage quality breeding. Pratacultural Science, 2006, 23(5): 57-61. (in Chinese)

[18]苏加楷. 中国牧草新品种选育的回顾与展望. 草原与草坪, 2001, 4: 3-8.

Suo J K. The review and prospect of forage breeding in China. Grassland and Turf, 2001, 4: 3-8. (in Chinese)

[19]杨延彪. 夏河县鼠荒地治理与牧草栽培试验. 家畜生态学报, 2007, 28(3): 62-63, 66.

Yang Y B. Countermeasure of the wasteland for rodent and grass plant experiment in Xiahe county. Acta Ecologiae Animalis Domastici, 2007, 28(3): 62-63, 66. (in Chinese)

[20]任继周. 草原生态化学实习实验指导. 北京: 中国农业出版社, 1985: 48-66.

Ren J Z. Grassland Ecological Chemistry Experiment Instruction. Beijing: China Agriculture Press, 1985: 48-66. (in Chinese)

[21]陈勇, 罗富成. 几种牧草及饲料作物在营养品质方面的育种概况. 动物科学与动物医学, 2003, 23: 63-66.

Chen Y, Luo F C. The general breeding of several forage and fodder crops in the nutritive qulity. Animal Science and Veterinary Medicine, 2003, 23: 63-66. (in Chinese)

[22]王赟文, 南志标, 王彦荣, 李春杰, 马隆喜. 高山草原条件下一年生豆科牧草生产性能的评价. 草业学报, 2001, 10: 47-55.

Wang Y W, Nan Z B, Wang Y R, Li C J, Ma L X. Herbage and seed yields of Vica and Lathyrus species under alpine grassland conditions. Acta Prataculturae Sinica, 2001, 10: 47-55. (in Chinese)

[23]蒲小朋, 董世魁, 阎宝生, 马金星. 高寒地区豆科牧草引种试验. 中国草地, 2001, 23: 17-25.

Pu X P, Dong S K, Yan B S, Ma J X. Studies on introduction of legumes in Alpine Region. Grassland of China, 2001, 23: 17-25. (in Chinese)

[24]王海洋, 杜国祯, 任金吉. 种群密度与施肥对垂穗披碱草刈割后补偿作用的影响. 植物生态学报, 2003, 27(4): 477-483.

Wang H Y, Du G Z, Ren J J. The impacts of population density and fertilization on compensatory responses of Elymus Nutans to mowing. Acta Phytoecologica Sinica, 2003, 27(4): 477-483. (in Chinese)

[25]张瑞珍, 张新跃, 刘登锴. 康巴垂穗披碱草品种选育研究. 草业与畜牧, 2012, 195: 8-12.

Zhang R Z, Zhang X Y, Liu D K. The breeding research of Kangba Elymus Nutans variety. Prataculture and Animal Husbandry, 2012, 195: 8-12. (in Chinese)

[26]张昌兵, 李达旭, 游明鸿, 白史且, 邓永昌, 鄢家俊, 张显泽. 阿坝垂穗披碱草区域试验研究. 草业与畜牧, 2012, 195: 1-4, 12.

Zhang C B, Li D X, You M H, Bai S Q, Deng Y C, Yan J J, Zhang X Z. The regional experimental research on Aba Elymus nutans. Prataculture and Animal Husbandry, 2012, 195: 1-4, 12. (in Chinese)

[27]徐显. 棉花品质育种研究现状及对策. 河北农业科学, 2003, 7: 115-119.

Xu X. The situation and countermeasure of cotton quality breedings. Journal of Hebei Agricultural Sciences, 2003, 7: 115-119. (in Chinese)

[28]汤圣祥, 王秀东, 刘旭. 中国常规水稻品种的更替趋势和核心骨干亲本研究. 中国农业科学, 2012, 45(8): 1455-1464.

Tang S X, Wang X D, Liu X. Study on the renewed tendency and key backbone-parents of inbred rice varieties (O.sativa L.) in China. Scientia Agricultura Sinica, 2012, 45(8): 1455-1464. (in Chinese)

[29]王丽侠, 程须珍, 王素华. 绿豆种质资源、育种及遗传研究进展. 中国农业科学, 2009, 42(5): 1519-1527.

Wang L X, Cheng X Z, Wang S H. Advances in research on genetic resources, breeding and genetics of mungbean (Vigna radiata L.). Scientia Agricultura Sinica, 2009, 42(5): 1519-1527. (in Chinese)

Related Articles 15

[1]	PENG TingShen, LU JiuYan, WU MeiLin, YAN YuXin, LIU HongZhou, NAN WenBin, QIN XiaoJian, LI Ming, GONG JunYi, LIANG YongShu. QTL Analysis of Yield-Related Traits in Both Huangnuo2^# and Changbai7^# of Perennial Chinese Rice [J]. Scientia Agricultura Sinica, 2026, 59(7): 1361-1379.
[2]	WANG YuPing, FU Zhi, SUN JiaYing, MU XiaoMeng, LIU HuiLin, GUO JinYun, SONG WenJing, HOU LeiPing, ZHAO HaiLiang. Evaluation of the Mitigating Effect and Application Efficacy of Melatonin Applied at the Seedling Stage on Short-Term Chilling Stress in Tomato Plants [J]. Scientia Agricultura Sinica, 2026, 59(7): 1523-1535.
[3]	WANG JiaNuo, CHEN GuiPing, LI Pan, WANG LiPing, NAN YunYou, HE Wei, FAN ZhiLong, HU FaLong, CHAI Qiang, YIN Wen, ZHAO LiaoHao. Photo-Physiological Mechanism at Grain Filling Stage of No-Tillage with Plastic Re-Mulching to Increase Maize Yield in Oasis Irrigation Areas [J]. Scientia Agricultura Sinica, 2026, 59(6): 1189-1202.
[4]	ZHOU XinJie, REN Hao, CHEN YingLong, ZHANG JiWang, ZHAO Bin, REN BaiZhao, LIU Peng, WANG HongZhang. Effects of Calcium Peroxide on Root Morphology and Yield Formation of Summer Maize in Waterlogging Farmland [J]. Scientia Agricultura Sinica, 2026, 59(6): 1203-1216.
[5]	HE JiHang, ZHANG Qing, LÜ XiangYue, XUE JiQuan, XU ShuTu, LIU JianChao. Evaluation of Nitrogen Efficiency of Different Stay-Green Maize Hybrids [J]. Scientia Agricultura Sinica, 2026, 59(6): 1217-1230.
[6]	YUE LiXin, WANG QingHua, WANG ZhenBao, NIMAQIONGJI, LIU ZeZhou, KONG SuPing, ZHANG LiFeng, GAO LiMin. Widely Targeted Metabolomics-Based Analysis of the Differences in Tibetan Bunching Onion and Chive on Nutritional Quality and Flavonoid Metabolites [J]. Scientia Agricultura Sinica, 2026, 59(5): 1070-1086.
[7]	ZHANG LiDong, GUO YiCong, HUANG HongYu, NIE Jing, WANG Bing, LI MengYu, LI JiaWang, SUI XiaoLei, LI YuHe. Correlation Analysis of Cucumber Fruit Quality Integrating Sensory Evaluation with Nutritional Traits and Flavor Compound Characteristics [J]. Scientia Agricultura Sinica, 2026, 59(5): 1087-1100.
[8]	DONG JinLong, ZHAO Ying, YU HaiBing, LÜ JianYe, QIN JiaQi, LIANG Chen, MING Bo, LI ShaoKun. Multi-Model Elucidating of Nutritional Quality Contributions to Maize Kernel Test Weight and Regional Heterogeneity [J]. Scientia Agricultura Sinica, 2026, 59(5): 985-995.
[9]	HAO Kun, CHEN HongDe, ZHANG Wei, ZHONG Yun, DANG MeiRong, ZHU ShiJiang, HUANG ZhiKun, JIN Ying. Comprehensive Evaluation of Water-Nitrogen Management Under Surge-Root Irrigation Based on Citrus Yield, Quality, and Water- Nitrogen Use Efficiency [J]. Scientia Agricultura Sinica, 2026, 59(4): 862-873.
[10]	GUO FuCheng, TANG HaiJiang, HAO XinYi, MA GuoLin, YANG JiuJu, HUANG LinFeng, TIAN Lei, WANG Bin, LUO ChengKe. Effects of Different Irrigation Methods on Water-Salt Transport, Rice Yield, and Water Use Efficiency in Saline Soil in Ningxia [J]. Scientia Agricultura Sinica, 2026, 59(4): 750-764.
[11]	YAN TingLin, DU YaDan, HU XiaoTao, WANG He, LI XiaoYan, WANG YuMing, NIU WenQuan, GU XiaoBo. The Impacts of Nitrogen Fertilizer Organic Alternatives Under Aerated Drip Irrigation on Cotton Yield and Water Use Efficiency Under Deficit Irrigation Conditions [J]. Scientia Agricultura Sinica, 2026, 59(3): 602-618.
[12]	YANG Rui, CHEN JingDong, HUANG Ying, XIE LingLi, ZHANG XueKun, ZHOU DengWen, LIU QingYun, XU JinSong, XU BenBo. Genetic Improvement and Configuration Analysis of High-Yield Rapeseed Lines in the Upper Reaches of the Yangtze River [J]. Scientia Agricultura Sinica, 2026, 59(2): 250-264.
[13]	CHEN GuiPing, WEI JinGui, GUO Yao, LI Pan, WANG FeiEr, QIU HaiLong, FENG FuXue, YIN Wen. Synergistic Effects of Wide-Narrow Row and Density Enhancement on the Photosynthetic Characteristics and Resource Utilization of Maize in Oasis Irrigation Areas [J]. Scientia Agricultura Sinica, 2026, 59(2): 278-291.
[14]	CAI TingYang, ZHU YuPeng, LI RuiDong, WU ZongSheng, XU YiFan, SONG WenWen, XU CaiLong, WU CunXiang. Effects of Leaf-Cutting at Seedling Stage on Photosynthetic Characteristics, Pod Distribution and Yield Formation in Soybean in the Huang-Huai-Hai Region [J]. Scientia Agricultura Sinica, 2026, 59(2): 292-304.
[15]	ZHANG ZhiYong, TAN ShiChao, XIONG ShuPing, MA XinMing, WEI YiHao, WANG XiaoChun. Effects of Annual Water and Nitrogen Optimization on Yield and Nitrogen Migration of Wheat-Maize Rotation System in Irrigation Area of Northern Henan [J]. Scientia Agricultura Sinica, 2026, 59(2): 336-353.

Metrics

Viewed

Full text

Abstract

Cited

Shared

Discussed

Comments

Recommended 0

No Suggested Reading articles found!

Selection of Excellent Germplasm Resources of Elymus nutans in Alpine Region

PDF

Abstract

Cite this article

share this article

References

Related Articles 15

Metrics

Comments

Recommended 0