中国农学通报
中國農學通報
중국농학통보
CHINESE AGRICULTURAL SCIENCE BULLETIN
2013年
19期
134-141
,共8页
熊代群%管利民%张盈盈%常春荣%黄承和%黄雄军%吴志祥
熊代群%管利民%張盈盈%常春榮%黃承和%黃雄軍%吳誌祥
웅대군%관이민%장영영%상춘영%황승화%황웅군%오지상
香蕉幼苗%氮钾营养%PEG%水分胁迫%生理指标
香蕉幼苗%氮鉀營養%PEG%水分脅迫%生理指標
향초유묘%담갑영양%PEG%수분협박%생리지표
banana seedlings%nitrogen and potassium nutrition%PEG%water stress%physiological indices
为了探索香蕉作物抗旱生理对适宜的水、氮、钾组合互作效应的响应特征,水培试验中利用PEG模拟水分胁迫,研究香蕉幼苗在不同浓度的氮钾肥交互效应下,叶片相对含水量、根系活力、脯氨酸酶含量、过氧化物酶活性的变化,进行多重比较分析最佳抗旱效果的氮钾浓度组合。结果表明,水分胁迫对香蕉幼苗叶片POD酶活性和Pro含量的影响来说,均表现为PEG 30%>PEG 20%>PEG 10%>CK (0%)。对试验因子间的交互作用进行分析表明:(1)叶片相对含水量的大小顺序:PEG 5%与 N 50 mg/L>PEG 15%与 N 150 mg/L≈PEG 10%与 N 100 mg/L;K 150 mg/L>K 200 mg/L>K 100 mg/L,且相互之间差异达到极显著。(2)香蕉幼苗根系活力大小顺序为:处理6(PEG 10%、N 150 mg/L、K 150 mg/L)>处理5(PEG 10%、N 100 mg/L、K 100 mg/L)>处理7(PEG 15%、N 50 mg/L、K150 mg/L),此3个处理的根系活力显著高于其他处理的根系活力,但三者之间差异不显著。(3)香蕉幼苗脯氨酸含量表现为处理9(PEG 15%、N 150 mg/L、K 100 mg/L)比处理1(PEG 5%、N 50 mg/L、K 100 mg/L)的脯氨酸含量高出2.16倍。处理9极显著高于其他处理的脯氨酸含量。(4)香蕉幼苗过氧化物酶活性表现为:处理9(PEG 15%、N 150 mg/L、K 100 mg/L)比处理1(PEG 5%、N 50 mg/L、K 100 mg/L)的过氧化物酶活性高出1.46倍。处理9极显著高于其他处理的过氧化物酶活性。适当的氮、钾浓度可提高香蕉幼苗叶片相对含水量、根系活力、脯氨酸含量和过氧化物酶活性,从而减轻水分胁迫的不利影响。本试验中处理6(PEG 10%、N 150 mg/L、K 150 mg/L)为最佳的水、氮、钾的处理。
為瞭探索香蕉作物抗旱生理對適宜的水、氮、鉀組閤互作效應的響應特徵,水培試驗中利用PEG模擬水分脅迫,研究香蕉幼苗在不同濃度的氮鉀肥交互效應下,葉片相對含水量、根繫活力、脯氨痠酶含量、過氧化物酶活性的變化,進行多重比較分析最佳抗旱效果的氮鉀濃度組閤。結果錶明,水分脅迫對香蕉幼苗葉片POD酶活性和Pro含量的影響來說,均錶現為PEG 30%>PEG 20%>PEG 10%>CK (0%)。對試驗因子間的交互作用進行分析錶明:(1)葉片相對含水量的大小順序:PEG 5%與 N 50 mg/L>PEG 15%與 N 150 mg/L≈PEG 10%與 N 100 mg/L;K 150 mg/L>K 200 mg/L>K 100 mg/L,且相互之間差異達到極顯著。(2)香蕉幼苗根繫活力大小順序為:處理6(PEG 10%、N 150 mg/L、K 150 mg/L)>處理5(PEG 10%、N 100 mg/L、K 100 mg/L)>處理7(PEG 15%、N 50 mg/L、K150 mg/L),此3箇處理的根繫活力顯著高于其他處理的根繫活力,但三者之間差異不顯著。(3)香蕉幼苗脯氨痠含量錶現為處理9(PEG 15%、N 150 mg/L、K 100 mg/L)比處理1(PEG 5%、N 50 mg/L、K 100 mg/L)的脯氨痠含量高齣2.16倍。處理9極顯著高于其他處理的脯氨痠含量。(4)香蕉幼苗過氧化物酶活性錶現為:處理9(PEG 15%、N 150 mg/L、K 100 mg/L)比處理1(PEG 5%、N 50 mg/L、K 100 mg/L)的過氧化物酶活性高齣1.46倍。處理9極顯著高于其他處理的過氧化物酶活性。適噹的氮、鉀濃度可提高香蕉幼苗葉片相對含水量、根繫活力、脯氨痠含量和過氧化物酶活性,從而減輕水分脅迫的不利影響。本試驗中處理6(PEG 10%、N 150 mg/L、K 150 mg/L)為最佳的水、氮、鉀的處理。
위료탐색향초작물항한생리대괄의적수、담、갑조합호작효응적향응특정,수배시험중이용PEG모의수분협박,연구향초유묘재불동농도적담갑비교호효응하,협편상대함수량、근계활력、포안산매함량、과양화물매활성적변화,진행다중비교분석최가항한효과적담갑농도조합。결과표명,수분협박대향초유묘협편POD매활성화Pro함량적영향래설,균표현위PEG 30%>PEG 20%>PEG 10%>CK (0%)。대시험인자간적교호작용진행분석표명:(1)협편상대함수량적대소순서:PEG 5%여 N 50 mg/L>PEG 15%여 N 150 mg/L≈PEG 10%여 N 100 mg/L;K 150 mg/L>K 200 mg/L>K 100 mg/L,차상호지간차이체도겁현저。(2)향초유묘근계활력대소순서위:처리6(PEG 10%、N 150 mg/L、K 150 mg/L)>처리5(PEG 10%、N 100 mg/L、K 100 mg/L)>처리7(PEG 15%、N 50 mg/L、K150 mg/L),차3개처리적근계활력현저고우기타처리적근계활력,단삼자지간차이불현저。(3)향초유묘포안산함량표현위처리9(PEG 15%、N 150 mg/L、K 100 mg/L)비처리1(PEG 5%、N 50 mg/L、K 100 mg/L)적포안산함량고출2.16배。처리9겁현저고우기타처리적포안산함량。(4)향초유묘과양화물매활성표현위:처리9(PEG 15%、N 150 mg/L、K 100 mg/L)비처리1(PEG 5%、N 50 mg/L、K 100 mg/L)적과양화물매활성고출1.46배。처리9겁현저고우기타처리적과양화물매활성。괄당적담、갑농도가제고향초유묘협편상대함수량、근계활력、포안산함량화과양화물매활성,종이감경수분협박적불리영향。본시험중처리6(PEG 10%、N 150 mg/L、K 150 mg/L)위최가적수、담、갑적처리。
In order to explore the response characteristics of banana drought resistance to the suitable water, nitrogen, potassium interaction, the hydroponic experiment had been done. In this experiment, the leaf relative water content, root vitality, proline enzyme content, peroxidase activity changes of banana seedlings were studied and multiple comparisons analysis of the best drought effects combination of nitrogen and potassium concentration were done too, under different concentrations of nitrogen and potassium interaction by using PEG simulated drought stress. The results showed that: the impact of water stress on POD activity and Pro content of banana seedling leaves showed: PEG 30% >PEG 20% >PEG 10% >CK (0% ). Analysis showed that: the interaction between the test factor: (1) water content of leaf size: PEG 5% & N 50 mg/L>PEG 15% & N 150 mg/L≈PEG 10% & N 100 mg/L; K 150 mg/L>K 200 mg/L>K 100 mg/L, and differences were significant between them. (2) Root activity of banana seedlings sequence: treatment 6 (PEG 10% , N 150 mg/L, K 100 mg/L) >treatment 5 (PEG 10% , N 100 mg/L, K 100 mg/L) >treatment 7 (PEG 15% , N 50 mg/L, K 150 mg/L). The root activities of the three treatments were significantly higher than the others, but there was no significant difference between them. (3) The proline content of treatment 9 (PEG 15% , N 150 mg/L, K 100 mg/L) was 2.16 times of treatment 1 (PEG 5%, N 50 mg/L, K 100 mg/L) of banana seedlings. Proline content of treatment 9 was significantly higher than those of other treatments. (4) The peroxidase activity performance of treatment 9 (PEG 15%, N 150 mg/L, K 100 mg/L) than treatment 1 (PEG 5%, N 50 mg/L, K 100 mg/L) was 1.46 times of treatment 1. Peroxidase activity of treatment 9 was significantly higher than that of other treatments. Appropriate concentrations of nitrogen and potassium could improve the leaf relative water content, root activity, proline content and peroxidase activity of banana seedling to reduce the adverse effect of water stress. In this experiment, treatment 6 (150 mg/L PEG 10%, nitrogen, potassium 150 mg/L) was the best appropriate treatment with water, nitrogen, potassium interaction on banana drought.
