应用与环境生物学报
應用與環境生物學報
응용여배경생물학보
CHINESE JOURNAL OF APPLIED & ENVIRONMENTAL BIOLOGY
2000年
2期
121-126
,共6页
磷-镉交互作用%镉的化学形态%生理特性%玉米%小麦
燐-鎘交互作用%鎘的化學形態%生理特性%玉米%小麥
린-력교호작용%력적화학형태%생리특성%옥미%소맥
P-Cd interaction%chemical form of Cd%physiological characteristics%corn%wheat
在控制条件下,将玉米、小麦植株在含有不同浓度磷(c(P)0,0.12,0.6,3.0 mmol/L)和镉(c(Cd)0,4.0 μmol/L)的营养液中培养21d,研究植株体内各种镉的形态、生理特性和酶活性的变化.选择三种主要镉的形态,即氯化钠可提取态(镉与蛋白质或多肽结合态),醋酸可提取态(镉与磷酸盐的结合态)和去离子水可提取态(水溶性、有机酸盐镉的形态)作为优势态镉加以分析和研究.结果表明,提高介质中磷的浓度,降低了与蛋白质结合态镉的含量,而增加了镉-磷酸盐的含量.与缺磷或低磷供应比较,在c(P)0.6~3.0 mmol/L下的两种作物根系脱氢酶的活性明显提高,根系K+的透性减小,玉米叶绿素的含量明显升高,硝酸还原酶活性增大.但高磷(c(P)3.0 mmol/L)处理的植株,各项生理指标不如0.6 mmol/L磷处理组植株好,表明在磷-镉的拮抗中,外施磷浓度并非越高越好.相反,过量的磷会抑制植物的生长与干物质的积累.小麦植株对镉的耐性大于玉米.图5 表4 参17
在控製條件下,將玉米、小麥植株在含有不同濃度燐(c(P)0,0.12,0.6,3.0 mmol/L)和鎘(c(Cd)0,4.0 μmol/L)的營養液中培養21d,研究植株體內各種鎘的形態、生理特性和酶活性的變化.選擇三種主要鎘的形態,即氯化鈉可提取態(鎘與蛋白質或多肽結閤態),醋痠可提取態(鎘與燐痠鹽的結閤態)和去離子水可提取態(水溶性、有機痠鹽鎘的形態)作為優勢態鎘加以分析和研究.結果錶明,提高介質中燐的濃度,降低瞭與蛋白質結閤態鎘的含量,而增加瞭鎘-燐痠鹽的含量.與缺燐或低燐供應比較,在c(P)0.6~3.0 mmol/L下的兩種作物根繫脫氫酶的活性明顯提高,根繫K+的透性減小,玉米葉綠素的含量明顯升高,硝痠還原酶活性增大.但高燐(c(P)3.0 mmol/L)處理的植株,各項生理指標不如0.6 mmol/L燐處理組植株好,錶明在燐-鎘的拮抗中,外施燐濃度併非越高越好.相反,過量的燐會抑製植物的生長與榦物質的積纍.小麥植株對鎘的耐性大于玉米.圖5 錶4 參17
재공제조건하,장옥미、소맥식주재함유불동농도린(c(P)0,0.12,0.6,3.0 mmol/L)화력(c(Cd)0,4.0 μmol/L)적영양액중배양21d,연구식주체내각충력적형태、생리특성화매활성적변화.선택삼충주요력적형태,즉록화납가제취태(력여단백질혹다태결합태),작산가제취태(력여린산염적결합태)화거리자수가제취태(수용성、유궤산염력적형태)작위우세태력가이분석화연구.결과표명,제고개질중린적농도,강저료여단백질결합태력적함량,이증가료력-린산염적함량.여결린혹저린공응비교,재c(P)0.6~3.0 mmol/L하적량충작물근계탈경매적활성명현제고,근계K+적투성감소,옥미협록소적함량명현승고,초산환원매활성증대.단고린(c(P)3.0 mmol/L)처리적식주,각항생리지표불여0.6 mmol/L린처리조식주호,표명재린-력적길항중,외시린농도병비월고월호.상반,과량적린회억제식물적생장여간물질적적루.소맥식주대력적내성대우옥미.도5 표4 삼17
Corn and wheat cultivated in hydroponic culture solution with supplies of cadmium (c(Cd)0, 4.0 μmol/L) and phosphorus (c(P)0, 0.12, 0.6, 3.0 mmol/L) under controlled growth conditions in relation to the chemical forms of Cd, growth and physiological parameters, and enzyme activities of 21-day-old plants were investigated. The three predominant forms of Cd were NaCl-extractable Cd (related to Cd-binding proteins or polypeptides), acetic acid-extractable Cd (CdHPO4, Cd3(PO4)2, or Cd-polyphosphates), and water-extractable Cd (organic acid complexes). Increasing application of P tended to reduce the percentage of Cd combined with proteins and increase the amount of Cd-phosphates. Decreased cell plasma membrane permeability and K+ leakage of Cd-treated plants were observed with the P supply of 0.6 mmol/L. The moderate supply of P (0.6 mmol/L) also improved the contents of chlorophyll pigments, the activities of root dehydrogenase and leaf nitrate reductase in Cd-treated plants, whereas supply with an excess of P (3.0 mmol/L) showed not to be more effective in the alleviation of Cd toxic to plants. Results showed that wheat was more tolerant to Cd toxicity than corn. Fig 5, Tab 4, Ref17