LU Weiwei,SUN Wei,JIANG Hongrui.Planting Adaptability of Camelina sativa ‘Jilan No.1’ in the Eastern and Western Regions of China[J].HEILONGJIANG AGRICULTURAL SCIENCES,2023,(03):20-24.[doi:10.11942/j.issn1002-2767.2023.03.0020]
荠蓝1号在中国东西部地区种植适应性研究
- Title:
- Planting Adaptability of Camelina sativa ‘Jilan No.1’ in the Eastern and Western Regions of China
- 文章编号:
- 4
- 文献标志码:
- A
- 摘要:
- 为推广种植亚麻荠新品种荠蓝1号,对比了荠蓝1号3月-6月在中国西部(新疆伊犁自治州)和东部(江苏连云港)两个地区在3种不同的种植行距(15,30和45 cm)下的农艺学表现。结果表明,荠蓝1号在新疆地区更具有高产潜力。两个地区的亚麻荠收获产量和含油量都较高,种子产量达204.56和187.58 g[DK]·m-2,含油量达43.04%和42.07%,单不饱和脂肪酸含量分别为22.20%~26.07%和22.28%~26.46%,多不饱和脂肪酸含量分别为50.19%~57.90%和51.44%~57.58%。两个地区30 cm的种植行距显著提高了荠蓝1号的产量和亚麻酸含量,新疆地区的30 cm种植行距的种子产量最高。综上所述,荠蓝1号适合在我国新疆地区种植,适宜种植行距为30 cm。
- Abstract:
- In order to promote the cultivation of a new Camelina sativa variety‘Jilan No.1’ .This experiment compared the agronomic performance of ‘Jilan No.1’ at three different planting row spacing (15, 30 and 45 cm) in western part of China(Ili Autonomous Pefectures of Xinjiang) and the eastern part of China (Lianyungang of Jiangsu Province) from March to June. The results showed that‘Jilan No.1’ had more potential for high yield in Xinjiang Region.The harvest yield and oil content of Camelina sativa in both regions were higher, the seed yields was 204.56 and 187.58 g·m-2, oil contents reached 43.04% and 42.07%, the monounsaturated fatty acid contents were 22.02%-26.07% and 22.28%-26.46%, and the polyunsaturated fatty acid contents were 5019%-57.90% and 51.44%-57.58%, respectively.The planting row spacing of 30 cm in both areas significantly increased the yield and linolenic acid content of ‘JilanNo.1’. And the highest seed yield was obtained at 30 cm planting row spacing in Xinjiang. In conclusion,‘Jilan No.1’ is more suitable for planting in Xinjiang with a suitable row spacing of 30 cm.
参考文献/References:
[1]HUTCHEON C,DITT R,BEILSTEN M.Polyploid genome of Camelina sativa revealed by isolation of fatty acid synthesis genes[J].BMC Plant Biology,2010,10(1):1-15.[2]JOSEF Z.Oil-seed crop:Camelina sativa[J].Industrial Crops and Products,1997,6(2):113-119.[3]杜树旺,李新朋,于立芹.亚麻荠的特性及应用研究进展[J].中国油脂,2018,43(6):108-111.[4]MARISOL B,RUSS G,CHRISTINA E.Camelina uses,genetics,genomics,production,and management[J].Industrial Crops and Products,2016,94:690-710.[5]GESCH R W,ARCHER D W.Double-cropping with winter Camelina in the northern Corn Belt to produce fuel and food[J].Industrial Crops and Products,2013,44:718-725.[6]WANGFW,CHEN H,LI X W.Mining and identification of polyunsaturated fatty acid synthesis genes active during Camelina seed development using 454 pyrosequencing[J].BMC Plant Biology,2015,15(1):147.[7]景炳年,魏磊,王伟.响应面优化亚麻荠饼粕多酚提取工艺及其抑菌和抗氧化活性研究[J].中国食品添加剂,2022,33(6):37-44.[8]朱杰,张华南,范毅.亚麻荠籽多糖提取工艺的响应面优化及其体外抗氧化活性[J].中国油脂,2021,46(10):127-131.[9]LU C F,KANG J L.Generation of transgenic plants of a potential oilseed crop Camelina sativa by Agrobacterium-mediated transformation[J].Plant Cell Reports,2008,27(2):273-278.[10]ZHANG C J,GAO Y,JIANG C J.Camelina seed yield and quality in different growing environments in Northern China[J].Industrial Crops and Products,2021,172:71.[11]GAO Y,JIANG C J,ZHANG Y X.Agronomic performance of Camelina genotypes selected for seed yield and quality characteristics in Eastern China[J].Industrial Crops and Products,2022,184:7.[12]邓乾春,黄凤洪,黄庆德.一种高利用价值油料作物-亚麻荠的研究进展[J].中国油料作物学报,2009,31(4):551-559.[13]李引平.新型油料作物荠蓝1号栽培技术要点[J].山西农业科学,2009,37(12):82-84.[14]马天祥.荠蓝一号油菜不同密度及施肥量试验报告[J].农业科技与信息,2010(9):14-15.[15]王爽.春、秋播亚麻荠生态特征及栽培技术的研究[D].延边:延边大学,2015.[16]WALIA M K,ZANETT I F,GESCH R W.Winter camelina seed quality in different growing environments across Northern America and Europe[J].Industrial Crops and Products,2021,169(6):113639.[17]苑丽霞,毛雪,杨致荣,等.新型工业油料作物亚麻荠油脂代谢工程[J].生物技术通报,2015,31(6):28-36.[18]VOLLMAN N J,MORIT Z T,KARGL C.Agronomic evaluation of Camelina genotypes selected for seed quality characteristics[J].Industrial Crops and Products,2007,26:270-277.
备注/Memo
收稿日期:2022-10-18