热带作物学报
熱帶作物學報
열대작물학보
CHINESE JOURNAL OF TROPICAL CROPS
2009年
11期
1624-1629
,共6页
镉%草莓%氮代谢%氨基酸含量%酶活性
鎘%草莓%氮代謝%氨基痠含量%酶活性
력%초매%담대사%안기산함량%매활성
cadmium%strawberry%nitrogen metabolism%amino acid content%enzymatic activity.
采用土壤盆栽试验,以"丰香"草莓品种为材料,研究镉胁迫对草莓氮代谢及果实品质的影响.结果显示,镉降低了草莓叶和根中的含氮量及叶中水解氨基酸总量,但各种水解氨基酸的变化趋势有一定的差异.镉胁迫下,草莓根中的游离脯氨酸含量和叶可溶性蛋白含量随镉处理浓度增加而增加.镉抑制草莓叶硝酸还原酶的活性,而使草莓叶中核糖核酸酶的活性升高.镉处理使草莓果实中的某些矿质元素及维生素C含量降低.更重要的是,镉被草莓吸收后,会积累在草莓果实中.草莓果实中镉的含量与土壤中镉的浓度的相关达极显著水平.在本实验条件下,当土壤中镉浓度超过0.267 mg/kg时,草莓果实的镉含量就将超过国家食品卫生标准,表明土壤中添加镉对草莓果实的品质也有影响.
採用土壤盆栽試驗,以"豐香"草莓品種為材料,研究鎘脅迫對草莓氮代謝及果實品質的影響.結果顯示,鎘降低瞭草莓葉和根中的含氮量及葉中水解氨基痠總量,但各種水解氨基痠的變化趨勢有一定的差異.鎘脅迫下,草莓根中的遊離脯氨痠含量和葉可溶性蛋白含量隨鎘處理濃度增加而增加.鎘抑製草莓葉硝痠還原酶的活性,而使草莓葉中覈糖覈痠酶的活性升高.鎘處理使草莓果實中的某些礦質元素及維生素C含量降低.更重要的是,鎘被草莓吸收後,會積纍在草莓果實中.草莓果實中鎘的含量與土壤中鎘的濃度的相關達極顯著水平.在本實驗條件下,噹土壤中鎘濃度超過0.267 mg/kg時,草莓果實的鎘含量就將超過國傢食品衛生標準,錶明土壤中添加鎘對草莓果實的品質也有影響.
채용토양분재시험,이"봉향"초매품충위재료,연구력협박대초매담대사급과실품질적영향.결과현시,력강저료초매협화근중적함담량급협중수해안기산총량,단각충수해안기산적변화추세유일정적차이.력협박하,초매근중적유리포안산함량화협가용성단백함량수력처리농도증가이증가.력억제초매협초산환원매적활성,이사초매협중핵당핵산매적활성승고.력처리사초매과실중적모사광질원소급유생소C함량강저.경중요적시,력피초매흡수후,회적루재초매과실중.초매과실중력적함량여토양중력적농도적상관체겁현저수평.재본실험조건하,당토양중력농도초과0.267 mg/kg시,초매과실적력함량취장초과국가식품위생표준,표명토양중첨가력대초매과실적품질야유영향.
Pot experiments were conducted to investigate the effect of cadmium(Cd) stress on nitrogen metabolism and fruit quality of strawberry, and the strawberry cultivar 'Fengxiang' was used as the material. The results showed that Cd reduced the nitrogen content in leaves and roots of the strawberry and the total content of hydrolytic amino acids in the leaves, and that each hydrolytic ammo acid tended to vary in various degrees. Under Cd stress, free proline content and soluble protein content in strawberry rose with the Cd concentration. The Cd inhibited the activity of nitrate reductase in strawberry leaves, but increased the activity of ribonuclease. The Cd reduced the contents of mineral elements and vitamin C in strawberry fruit. Moreover, Cd was accumulated in a large number in the fruit after absorbed by strawberry. The Cd content in fruit showed highly significant correlation with the concentrations of Cd in soil. The Cd content in the fruit produced under this experiment exceeded the food safety standards when the Cd concentration in the soil was over 0.267 mg/kg. This suggested that addition of the Cd in the soil could also give impact to the fruit quality of strawberry.