植物营养与肥料学报
植物營養與肥料學報
식물영양여비료학보
PLANT NUTRITION AND FERTILIZER SCIENCE
2014年
2期
309-317
,共9页
郭丽%郭程瑾%丁长欢%赵妙%李小娟%肖凯
郭麗%郭程瑾%丁長歡%趙妙%李小娟%肖凱
곽려%곽정근%정장환%조묘%리소연%초개
小麦( Triticum aestivum L.)%B染色体组%双端体%丰低磷%磷效率性状%氮钾效率性状%形态学性状
小麥( Triticum aestivum L.)%B染色體組%雙耑體%豐低燐%燐效率性狀%氮鉀效率性狀%形態學性狀
소맥( Triticum aestivum L.)%B염색체조%쌍단체%봉저린%린효솔성상%담갑효솔성상%형태학성상
wheat (Triticum aestivum L.)%B chromosome group%ditelosomic line%sufficient-and low-Pi%P use efficiency%nitrogen and potassium use efficiencies%phenotypic feature
以中国春(CS)及其B染色体组双端体(1BS 7BS和1BL 7BL))为材料,采用溶液培养法,研究了不同磷水平下各供试材料的干物质积累和磷效率特征。结果表明,与CS相比,丰磷下4 BS、6 BS、3 BL 及7 BL和低磷下4 BS、6 BS、7 BS、和7 BL植株形态及单株干重无明显变化,其他B染色体组双端体植株形态变劣、单株干重降低。丰、低磷下,各双端体单株磷累积量与CS相比多呈减少趋势,表明缺失B染色体长、短臂对小麦的磷素吸收和累积发挥不同程度负调控效应。全磷含量表现为丰磷下4 BS和4 BL较CS显著增加、5 BS较CS显著降低;低磷下5 BS较CS显著提高,3BL和5BL较CS显著降低。与CS相比,各双端体植株的磷效率变幅较大,呈与单株磷累积量相反趋势变化,即丰磷下3BS、5BS较CS显著增加,4BS、1BL和4BL较CS显著减少。丰、低磷条件下,多数双端体植株氮钾效率与CS相比也发生不同程度改变。丰、低磷磷下单株干重与磷累积量呈显著正相关,且单株干重与单株叶面积也呈显著正相关。因此,本研究证实,特定B染色体组长、短臂在调控植株抵御低磷逆境中发挥着重要遗传效应,可用单株叶面积作为丰、低磷下植株磷效率的评价指标。
以中國春(CS)及其B染色體組雙耑體(1BS 7BS和1BL 7BL))為材料,採用溶液培養法,研究瞭不同燐水平下各供試材料的榦物質積纍和燐效率特徵。結果錶明,與CS相比,豐燐下4 BS、6 BS、3 BL 及7 BL和低燐下4 BS、6 BS、7 BS、和7 BL植株形態及單株榦重無明顯變化,其他B染色體組雙耑體植株形態變劣、單株榦重降低。豐、低燐下,各雙耑體單株燐纍積量與CS相比多呈減少趨勢,錶明缺失B染色體長、短臂對小麥的燐素吸收和纍積髮揮不同程度負調控效應。全燐含量錶現為豐燐下4 BS和4 BL較CS顯著增加、5 BS較CS顯著降低;低燐下5 BS較CS顯著提高,3BL和5BL較CS顯著降低。與CS相比,各雙耑體植株的燐效率變幅較大,呈與單株燐纍積量相反趨勢變化,即豐燐下3BS、5BS較CS顯著增加,4BS、1BL和4BL較CS顯著減少。豐、低燐條件下,多數雙耑體植株氮鉀效率與CS相比也髮生不同程度改變。豐、低燐燐下單株榦重與燐纍積量呈顯著正相關,且單株榦重與單株葉麵積也呈顯著正相關。因此,本研究證實,特定B染色體組長、短臂在調控植株牴禦低燐逆境中髮揮著重要遺傳效應,可用單株葉麵積作為豐、低燐下植株燐效率的評價指標。
이중국춘(CS)급기B염색체조쌍단체(1BS 7BS화1BL 7BL))위재료,채용용액배양법,연구료불동린수평하각공시재료적간물질적루화린효솔특정。결과표명,여CS상비,봉린하4 BS、6 BS、3 BL 급7 BL화저린하4 BS、6 BS、7 BS、화7 BL식주형태급단주간중무명현변화,기타B염색체조쌍단체식주형태변렬、단주간중강저。봉、저린하,각쌍단체단주린루적량여CS상비다정감소추세,표명결실B염색체장、단비대소맥적린소흡수화루적발휘불동정도부조공효응。전린함량표현위봉린하4 BS화4 BL교CS현저증가、5 BS교CS현저강저;저린하5 BS교CS현저제고,3BL화5BL교CS현저강저。여CS상비,각쌍단체식주적린효솔변폭교대,정여단주린루적량상반추세변화,즉봉린하3BS、5BS교CS현저증가,4BS、1BL화4BL교CS현저감소。봉、저린조건하,다수쌍단체식주담갑효솔여CS상비야발생불동정도개변。봉、저린린하단주간중여린루적량정현저정상관,차단주간중여단주협면적야정현저정상관。인차,본연구증실,특정B염색체조장、단비재조공식주저어저린역경중발휘착중요유전효응,가용단주협면적작위봉、저린하식주린효솔적평개지표。
Chinese spring ( CS) and ditelosomic lines ( DL) from B chromosome (1BS-7BS, 1BL-7BL) were used to investigate the accumulation of plant dry matter and phosphorus efficiencies under sufficient -Pi and low-Pi conditions by hydroponics experiment .Compared with CS, the plant phenotypic features and dry weights of 4BS, 6BS, 3BL and 7BL under sufficient-Pi condition and those of DL 4BS, 6BS, 7BS and 7BL under low-Pi condition were stable .The phenotypic features in the other DLs became worese and the dry weight decreased significantly at both Pi-supply conditions .The P accumulation amount per plant in the tested DLs displayed a decreasing trend compared with CS under both Pi-supply conditions , suggesting that the deletion of long or short chromosome B arms in wheat were involved in regulating accumulation of phosphorus in the plant .Under sufficient-Pi condition , the total P contents in 4BS and 4BL were significantly higher than that in CS , whereas that in 5BS was significantly lower than that in CS.Under low-Pi condition, the total P content in 5BS was significantly higher than that in CS , whereas that in 3BL and 5BL were significantly lower than that in CS .Compared with CS, the tested DLs relatively showed a higher variation range in plant P usage efficiencies under both sufficient -and low-Pi conditions , and generally demonstrated a reverse tendency of P accumulation amount in each line of the plant . The P use efficiencies in 3BS and 5BS were higher than that in CS under sufficient-Pi condition, whereas P usage efficiencies in 4BS, 1BL, and 4BL were higher than that in CS under low-Pi condition.Supply with sufficient Pi or low Pi also changed the efficiencies of N-and K-usage in the DLs to the extent .Positive correlations are significantly observed between plant dry weight and P accumulation , as well as plant dry weight and plant leaf area .Therefore, our results indicate that wheat DLs with deletion play an important role in mediating plant responses to external Pi and genetically in regulating P use efficiencies .Leaf area per plant could be used for evaluating plant P use efficiency under both sufficient-and low-Pi conditions .