烤烟钾、钙、镁互作效应的研究
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摘要
本研究采用土壤培育、盆栽试验和大田试验相结合的方法,研究了土壤交换性钾、钙、镁含量的变化特点;钾、钙、镁肥配施对烤烟生长、生理生化过程和品质的影响以及在我省气候和土壤条件下烟株体内适宜的钾、钙、镁比例。
土壤培育试验结果表明,不同配比的钾、钙、镁肥加入土壤后,土壤交换性钾、钙、镁的含量明显提高,并随培育时间的延长,土壤交换性钾、镁的含量表现出先上升后下降的规律,土壤交换性钙含量则表现为先下降而后又有所上升的规律。增加钾肥用量,土壤交换性钾含量明显增加,交换性镁含量下降,这说明土壤中钾的含量越高则对土壤镁活性的抑制作用越明显;同时,土壤交换性钙的含量随钾肥用量的增加而下降。增加钙肥用量,土壤交换性钙含量明显提高;土壤交换性钾含量在培育初期高于对照处理的,但在培育至第90天则低于对照处理的,土壤交换性镁的含量比对照处理的低。增施镁肥,土壤交换性镁的含量明显高于对照处理的,交换性钾的含量高于对照处理的,交换性钙的含量有所下降,但不显著。
通过研究钾、钙、镁肥配施对烤烟生理代谢的影响的结果表明,在烤烟进入现蕾期后,K_2Ca_1Mg(f)处理的chla/chlb比值较高,NR活性最高,MDA含量较低,SOD、POD、CAT活性低,说明适宜的钾、钙、镁肥配比使叶片的活性氧代谢处于一种平衡状态,脂膜受到伤害比较小,有助于延缓叶片的衰老。而K_3Ca_2Mg(j)处理的叶绿素和类胡萝卜都较低,MDA含量最高,SOD、POD活性较高,而CAT活性较低,导致SOD活性与CAT活性之间的不平衡。
钾、钙、镁是烤烟生长发育必不可少的营养元素,它们中任何一种营养元素的缺乏都会导致烤烟产量和品质的下降。盆栽试验结果表明,钾、钙、镁元素之间存在明显的交互作用,它们之中任何一种元素的增加都会抑制烟株对其它两种元素的吸收。钾、钙、镁肥不同配施对烟株养分含量和吸收量均有明显的影响。土壤中施
福建农林大学硕士论文
20()3·5
入钾肥、钙肥或镁肥,均显著提高烟叶的钾、钙、镁含量。在本试验的土壤条件下,
当K十:ca2+:M才+施用比例比值为l:1 .05:0.16时,获得较高的生物量,与对照
相比,增产19.17%。大田试验结果表明,当烤烟叶片的钾、钙、镁含量的比例为
1:0.54:0.07时,获得较高的产量和上等烟比例,分别达到为197.2Kg/亩和57.97%.
但从钾、钙、镁含量的测定结果来看,钾含量和钙含量比较正常,而镁含量则偏低,
因此有增加镁肥用量的必要性。而过高的钾肥用量(K3水平)并没有显著提高烟叶的
产量和质量。在我省土壤和气候条件下,建议K‘、CaZ‘、M广的施用比例在1.0:1.0~
2.0:0.1~0.15之间时比较适宜。
Soil culture, pot experiment and field experiment were conducted to study the characteristics of soil exchangeable potassium, calcium and magnesium content, the effect of combined application of potassium, calcium and magnesium fertilizer on growth, physiological process and quality of flue-cured tobacco, and suitable ratio of potassium, calcium and magnesium in flue-cured tobacco plant on the condition of the climate and soil in fujian.
Soil culture results showed soil exchangeable potassium, calcium and magnesium content had increased significantly after different combined applications of potassium, calcium and magnesium fertilizer were applied. Soil exchangeable potassium and magnesium content raised at first, and it got down following time gone, as well as exchangeable calcium content was adverse to exchangeable potassium and magnesium contents. After potassium fertilizer was applied, soil exchangeable potassium increased obviously, as well as soil exchangeable magnesium decreased, which showed magnesium activities got lowlier if the concentrations of potassium in soil were added, soil exchangeable calcium also decreased with raising potassium fertilizer. After calcium fertilizer was applied, soil exchangeable calcium increased significantly whereas soil exchangeable magnesium decreased. Soil exchangeable potassium was higher than that of CK treatment at first, which was lower than that of CK treatment after 90 days yet in soil culture.
It was found that soil exchangeable magnesium was higher apparently than that of CK treatment, and soil exchangeable potassium was higher than that of CK treatment too, whereas soil exchangeable calcium decreased a litter after magnesium fertilizer was
applied.
Pot experiment was carried out to study the effect of combined application fertilizer of potassium, calcium and magnesium on physiological metabolism. The results showed K2Ca1Mg (f) treatment ratio of chla/chlb was high, the content of malondialdehyde (MDA) and activities of superroxide dismutase (SOD), peroxidase (POD) and catalase (CAT) was still low during first bloom, which indicated that suitable combined application fertilizer of potassium, calcium and magnesium kept the balance of active oxygen metabolism in flue-cured tobacco leaves, and reduced the lipid peroxide and prolonged the aging of leaves. Chlorophyll and carotene of the K3Ca2Mg (j) treatment were low, and the content of MDA increased, SOD and POD activities increased too, as long as the activity of CAT reduced, which broke the balance of active oxygen metabolism in flue-cured tobacco leaves.
Potassium, calcium and magnesium are important nutrients for flue-cured tobacco .The deficiency of them will cause yield and quality to decease. Pot experiment results showed significant interaction among potassium, calcium and magnesium. The leaves uptake of others was contained with the addition of anyone of three nutrients. Different combined application fertilizer of potassium, calcium and magnesium had significant effect on the nutrients content and total uptake of nutrients. Soil exchangeable potassium, calcium and magnesium content increased greatly after potassium, calcium or magnesium fertilizer was applied .The research indicated it was gained high biomass on the condition that application ratio of potassium, calcium and magnesium was 1 : 1.05: 0.16, and the yield was 19.17 percent higher than CK treatment. Field experiment result showed yield and the ratio of high quality tobacco was increased remarkably on the condition that the ratio of potassium, calcium and magnesium in plant was 1:0.54:0.07, which werel97.2kg.acre-1 and 57.97 percent. The results of potassium, calcium and magnesium content analysed
showed the contents of potassium and calcium were normal; magnesium content was lower to normal level, which suggested it be needed to increase magnesium fertilizer. The yield and quality were not increased significantly if the addition of potassium fertilizer was beyond plant need. It was suggusted that a optimum application
土壤培育试验结果表明,不同配比的钾、钙、镁肥加入土壤后,土壤交换性钾、钙、镁的含量明显提高,并随培育时间的延长,土壤交换性钾、镁的含量表现出先上升后下降的规律,土壤交换性钙含量则表现为先下降而后又有所上升的规律。增加钾肥用量,土壤交换性钾含量明显增加,交换性镁含量下降,这说明土壤中钾的含量越高则对土壤镁活性的抑制作用越明显;同时,土壤交换性钙的含量随钾肥用量的增加而下降。增加钙肥用量,土壤交换性钙含量明显提高;土壤交换性钾含量在培育初期高于对照处理的,但在培育至第90天则低于对照处理的,土壤交换性镁的含量比对照处理的低。增施镁肥,土壤交换性镁的含量明显高于对照处理的,交换性钾的含量高于对照处理的,交换性钙的含量有所下降,但不显著。
通过研究钾、钙、镁肥配施对烤烟生理代谢的影响的结果表明,在烤烟进入现蕾期后,K_2Ca_1Mg(f)处理的chla/chlb比值较高,NR活性最高,MDA含量较低,SOD、POD、CAT活性低,说明适宜的钾、钙、镁肥配比使叶片的活性氧代谢处于一种平衡状态,脂膜受到伤害比较小,有助于延缓叶片的衰老。而K_3Ca_2Mg(j)处理的叶绿素和类胡萝卜都较低,MDA含量最高,SOD、POD活性较高,而CAT活性较低,导致SOD活性与CAT活性之间的不平衡。
钾、钙、镁是烤烟生长发育必不可少的营养元素,它们中任何一种营养元素的缺乏都会导致烤烟产量和品质的下降。盆栽试验结果表明,钾、钙、镁元素之间存在明显的交互作用,它们之中任何一种元素的增加都会抑制烟株对其它两种元素的吸收。钾、钙、镁肥不同配施对烟株养分含量和吸收量均有明显的影响。土壤中施
福建农林大学硕士论文
20()3·5
入钾肥、钙肥或镁肥,均显著提高烟叶的钾、钙、镁含量。在本试验的土壤条件下,
当K十:ca2+:M才+施用比例比值为l:1 .05:0.16时,获得较高的生物量,与对照
相比,增产19.17%。大田试验结果表明,当烤烟叶片的钾、钙、镁含量的比例为
1:0.54:0.07时,获得较高的产量和上等烟比例,分别达到为197.2Kg/亩和57.97%.
但从钾、钙、镁含量的测定结果来看,钾含量和钙含量比较正常,而镁含量则偏低,
因此有增加镁肥用量的必要性。而过高的钾肥用量(K3水平)并没有显著提高烟叶的
产量和质量。在我省土壤和气候条件下,建议K‘、CaZ‘、M广的施用比例在1.0:1.0~
2.0:0.1~0.15之间时比较适宜。
Soil culture, pot experiment and field experiment were conducted to study the characteristics of soil exchangeable potassium, calcium and magnesium content, the effect of combined application of potassium, calcium and magnesium fertilizer on growth, physiological process and quality of flue-cured tobacco, and suitable ratio of potassium, calcium and magnesium in flue-cured tobacco plant on the condition of the climate and soil in fujian.
Soil culture results showed soil exchangeable potassium, calcium and magnesium content had increased significantly after different combined applications of potassium, calcium and magnesium fertilizer were applied. Soil exchangeable potassium and magnesium content raised at first, and it got down following time gone, as well as exchangeable calcium content was adverse to exchangeable potassium and magnesium contents. After potassium fertilizer was applied, soil exchangeable potassium increased obviously, as well as soil exchangeable magnesium decreased, which showed magnesium activities got lowlier if the concentrations of potassium in soil were added, soil exchangeable calcium also decreased with raising potassium fertilizer. After calcium fertilizer was applied, soil exchangeable calcium increased significantly whereas soil exchangeable magnesium decreased. Soil exchangeable potassium was higher than that of CK treatment at first, which was lower than that of CK treatment after 90 days yet in soil culture.
It was found that soil exchangeable magnesium was higher apparently than that of CK treatment, and soil exchangeable potassium was higher than that of CK treatment too, whereas soil exchangeable calcium decreased a litter after magnesium fertilizer was
applied.
Pot experiment was carried out to study the effect of combined application fertilizer of potassium, calcium and magnesium on physiological metabolism. The results showed K2Ca1Mg (f) treatment ratio of chla/chlb was high, the content of malondialdehyde (MDA) and activities of superroxide dismutase (SOD), peroxidase (POD) and catalase (CAT) was still low during first bloom, which indicated that suitable combined application fertilizer of potassium, calcium and magnesium kept the balance of active oxygen metabolism in flue-cured tobacco leaves, and reduced the lipid peroxide and prolonged the aging of leaves. Chlorophyll and carotene of the K3Ca2Mg (j) treatment were low, and the content of MDA increased, SOD and POD activities increased too, as long as the activity of CAT reduced, which broke the balance of active oxygen metabolism in flue-cured tobacco leaves.
Potassium, calcium and magnesium are important nutrients for flue-cured tobacco .The deficiency of them will cause yield and quality to decease. Pot experiment results showed significant interaction among potassium, calcium and magnesium. The leaves uptake of others was contained with the addition of anyone of three nutrients. Different combined application fertilizer of potassium, calcium and magnesium had significant effect on the nutrients content and total uptake of nutrients. Soil exchangeable potassium, calcium and magnesium content increased greatly after potassium, calcium or magnesium fertilizer was applied .The research indicated it was gained high biomass on the condition that application ratio of potassium, calcium and magnesium was 1 : 1.05: 0.16, and the yield was 19.17 percent higher than CK treatment. Field experiment result showed yield and the ratio of high quality tobacco was increased remarkably on the condition that the ratio of potassium, calcium and magnesium in plant was 1:0.54:0.07, which werel97.2kg.acre-1 and 57.97 percent. The results of potassium, calcium and magnesium content analysed
showed the contents of potassium and calcium were normal; magnesium content was lower to normal level, which suggested it be needed to increase magnesium fertilizer. The yield and quality were not increased significantly if the addition of potassium fertilizer was beyond plant need. It was suggusted that a optimum application
引文
1.罗鹏涛,邵岩.1992.镁对烤烟产量、质量、几个生理指标的影响.云南农业大学报,7(3):129-133
2.李美如,刘鸿先.1996.钙对水稻幼苗抗冷性的影响.植物生理学报,22(4):379-384
3.李延,刘星辉,庄卫民.2000.植物镁素营养生理的研究进展.福建农业大学报,29(1):74-80
4.孙光明,黄建安,陆发熹.1990.岸杂一号狗牙根草的缺镁症状及镁肥效应.土壤学报,27(3):262-268
5.邵岩.1992.镁在烟草生产中的作用.云南农业大学学报,7(2):105-109
6.周卫,林葆.1995.花生苹果钙素吸收机制研究.植物营养与肥科学报,1(1):44-51
7.王晓萍,阮建云等,1995,茶树钾素特性的研究.作物学报,2(2):324-329
8.汪洪,褚天铎.1998.缺镁对菜豆幼苗膜脂过氧化及体内活性氧清除酶系统的影响.植物营养与肥料学报,4(4):368-392
9.刘伟宏,刘飞虎等.1999.植物根部细胞钾离子转运机制及其分子基础.江西农业大学学报,21(4):451-455
10.葛滢,李建东.1993.东北羊 草地钙、镁含量特征的研究.植物生态学与地植物学学报,17(3):264-272.
11.黄燕翔,刘淑欣,熊德中.1995.福建烟区土壤条件与烤烟品质的关系.福建农业大学学报,24(2):201-204.
12.臧小平.1997.土壤铝毒与植物钙镁营养.广西农业科学,(2):80-82.
13.曹志洪,胡国松等.1999,土壤供钾特性和烤烟的钾肥的有效施用.烟叫·科技,(2):33-37
14.李春英,高伟民,陈腊梅,熊德中等.2000福建烟区土壤镁素状况及其施用效果研究.河南农业大学学报,34(1):63-66.
15.云南省烟草科学研究所,晋艳,1999.烟草中钾钙镁相互关系研究初报.云南农业科技,(3):6-9,47.
16.赵鹏,谭金芳.2000.施钾条件下烟草钾与钙镁相互关系的研究.中国烟草学报,6(1):23-25.
17.訾大镇,郭月清主编.1996.烟草栽培.北京:中国农业出版社,113.
18.左天觉著.1993.烟草的生产、生理和生物化学.朱尊译.上海,上海远东出版社,60-63.
19.顾也萍,罗爱武等.1992.钾肥对皖南植烟土壤烟叶含钾量的影响.安微农业科技,3:133-135.
20.胡国松,陈江华等.1996.田间状况下烤烟养分吸收动力学及其在平衡施肥中的应用.中国烟草学报,3(2):14-21.
21.鲁如坤等著.1998.土壤—植物营养学原理和施肥.北京:化学工业出版社,228-230.
22.张效朴,郑根宝,1987.连续施石灰对作物生长及其养分吸收的影响.土壤学报,24(4):243—251.
23.何电源主编.1994.中国南方土壤肥力与栽培植物施肥.北京:科学出版社,89-103
24.(德)K·蒙格尔,(英)E·A·克尔克贝著.1978.植物营养原理,张宜春译.北京:农业出版社,450—469、475—486.
25.浙江农业大学主编.1991.植物营养与肥科,北京:农业出版社,22—26,123.
26.周卫,林葆.1995.植物钙素营养机理研究进展.土壤学进展,23(2):12-17.
27.慕成功主编.1995.钾素营养及施肥技术.北京:中国农业科技出版社,21
28.林葆,周卫,谢晓红.1997.钙肥品种及施用方法对花生肥料的影响.土壤通报,28(4):172-184
29.袁可能编著.1983.植物营养元素的土壤化学.北京:科学出版社,166-290
30.邵岩,雷承和,晋艳.1995.烤烟水培临界值研究.中国烟草学报,2(4):52-56.
31.李绍志,田建国等.1997.钾镁肥在烤烟上的应用效果试验研究初报.烟草科技,2,35-37.
32.郑圣先、罗成秀等.1991.钾、镁营养水平对油茶产量和养分吸收的影响.土壤通报,22(2):87—89.
33.汪洪,褚天锋.1999.植物镁素营养的研究进展.植物学通报,16(3):245-250.
34.施洁斌,泰遂初,单英杰.1997.酸性土壤小麦缺镁与铝及钙、钾元素的关系研究.浙江农业科学,6:282-284
35.李伏生.1994.土壤镁素和镁肥施用的研究.土壤学进展,22(4):18—24
36.许能琨,肖召民等.1985.从粤西植胶区三种土壤看矿质肥料对胶苗组分缺乏症状和生长的影响.热带作物学报,7(2):47-55
37.张桂银,崔彦宏.1994.高产夏玉米镁的吸收与再分配研究.河北农业大学学报,17(1):18-22
38.刘先栋,杨力等.2000.镁、钙肥对肥城桃品质影响及平衡施肥的研究.山东农业大学学报(自然科学版),31(2):173—176
40.章明清,林琼等,1999,闽东南早地土壤镁肥肥效与钾镁平衡施肥技术研究.土壤肥料,1:27—29,41
41.杜承林,雷和英等.1997.钾镁肥在烤烟上的应用效果的研究初报.烟草科技,(2),35-37
42.史瑞和等著.1989.植物营养原理.南京:江苏科技出版社,358-368
43.邹邦基等著.1985.植物的营养.北京:农业出版社,195-206
44.吴洵.1994.茶树的钙镁营养及土壤调控.茶叶科学,14(2):115-121
45.韩志卿,张电学等.1992.冀东褐土区施用石膏对花生生长发育和钙、镁吸收分配的影响.中国油科,18(2):62-66
46.宋国菡,杨力.1998.钙对结球甘蓝钙镁硫吸收分配影响的研究.山东农业大学学报,29(4):495-501
47.谭红,何锦林.1994.钾、钙、镁营养水平对白三叶养分吸收的影响.四川草原,2:15-16,22
48.陈际型,宣家祥.1999.低盐基土壤K、Ca、Mg的交互作用对水稻生长与养分吸收的影响.36(4):433-439.
49.[美]芒森 RD主编.1995.农业中的钾、范钦桢、郑文钦等译.北京:科学出版社,277-360,814-829.
50.李佛琳,彭桂芬等.1999.我国烟草钾素研究的现状与展望.中国烟草科学,1:22-25
51.倪吾钟、何愈祖等.1997.钾对大白菜的营养作用及其生理机制研究.植物营养与肥料学报,3(2):117-121
52.刘咏梅.1997.低钾对番红花长合作用的影响[J].西南师范大学学报,4:426-429
53.黄建中,饶立华,陆定志.1991,钾营养对杂交稻叶片发育期间光合作用的影响.植物生理学通讯,27(2):91-94
54.刘咏梅.1999.低押对番红花叶片中SUD、CAT、POD酶活性和MDA的影响.西南师范大学学报(自然科学版),24(1):116-119.
55.付国占,李友军等.1997.增施钾肥对小麦旗叶活性氧代谢及产量的影响.麦类作物,17(5):52-54
56.胡国松,郑陆等编者.2000.烤烟营养原理,162-163
57.宋克敏,姚光勋等.1995.营养液缺钙或铁钾对糜子幼苗抗旱性的影响.植物生理学报,21(1):35-42
58.何萍,金继运.1999.氮钾营养对春玉米叶片衰老过程中激素变化与活性氧代谢的影响.植物营养与肥料学报,5(4):289-297
59.汪邓民,范思锋.1999.钾素对烤烟成熟生理变化及成熟度影响的研究.植物营养与肥料学报,5(3):244-248
60.宰学明,吴国荣.2001.Ca2+对花生幼苗耐热性和活性氧代谢的影响.中国油料作物学报,23(1):46-50
61.段咏新,宋松泉,傅家瑞.1999.钙对杂交水稻叶片中活性氧防御酶的影响.生物学杂志,16(1):16-17
62.赵会杰.1996.烤烟叶片成熟过程中膜脂过氧化及脂肪酸含量变化的研究.烟草科技,3:32-34
63.缪颖,毛琦,巢建福等.1991.钙处理对水密桃和梨果实中钙含量细胞膜透明性和代谢产物的影响.植物生理学通讯,27:184-188
64.杨宇虹、崔国明等.1999.钙对烟产质量及其主要植物学性状的影响.云南农业大学学报,14(2):148-152
65.龚明,李英.1990,植物体内的钙信使系统.植物学通讯,7(3):19-29
66.赵可夫,卢元芳等.1993.钙对小麦幼苗降低盐害效应的研究.植物学报,35(1):51-56
67.程林梅.1998.钙处理对土壤干旱下棉花幼苗生理生化指标的影响.植物学通报.15(6):70-72
68.段咏新,宋松泉,傅家瑞.1997.钙对延缓杂交水稻叶片衰老的作用机理.杂交水稻,12(6):23-25
69.洪洪水,赵海泉.1999.Cacl_2对月季切花衰老的影响.园艺学报,26(1):62-64
70.邓美玲,龙云,谈锋.1999.Ca~(2+)对番红花叶片中活性氧代谢的影响.西南师范大学学报(自然科学版),24(1):87-91
71.李延,泰遂初.1995.镁对水稻糖、淀粉积累与运转的影响.福建农业大学学报,24(1):54-57
72.李延,刘星辉,庄卫民.2000.缺镁对龙眼叶组织活性氧代谢及膜系统的影响.热带作物学报,21(4):39-44.
73.李延,刘星辉,庄卫民.2000.植物Mg素营养生理的研究进展.福建农业大学学报,29(1):74-80
74.卢必威.1984.蔬菜缺钙及钙的施用.土壤肥料,(5):27-28
75.何电源.1981.红壤的酸性与作物的生长及石灰施用的研究.农业现代法研究,(2):33-40
76.李伏生.1991.南方几种土壤镁素释放和固定的初步研究.土壤通报,22(3):115-118
77.(美)S.L.蒂斯代尔.1984.土壤肥力与肥料.孙秀廷译.北京:科学出版社,146-167
78.秦遂初.1988.作物营养障碍的诊断及其防治.杭州:科学技术出版社,214-221
79.罗安程.1995.“花而不实”油菜体内硼与氮、钾、镁和钙关系的研究.土壤肥料,(2):39-41
80.韩锦峰等编著.1986.烟草栽培生理.北京:农业出版社,71-139
81.韩锦峰,汪耀富,林学梧.1994.烤烟叶片成熟度与细胞膜过氧化及体内保护酶活性关系的研究.中国烟叶学报,2(1):20-24
82.陈少裕.1992.甘蔗叶片衰老与脂膜过氧化.作物学报,18(2):111-115
83.中国家科院烟草研究所主编.1987.中国烟草栽培学.上海:上海科学技术出版社,38-137
84.南京农业大学主编.1981.土壤农化分析.北京:农业出版社,84-104
85.鲁如坤等编著.土壤农业化学分析方法.北京:中国农业科技出版社,1-292
86.(苏)X..H.波钦诺克编著.1981.植物生物化学分析方法.荆家海,丁钟荣等译.北京:科学出版社,255-259
87.中国科学院上海植物生理研究所,上海市植物生理学会编著.1999,现代植物生理学实验指南,北京:科学出版社,152-154
88.文树基主编.1994,基础生物化学实验指导.陕西:陕西科学技术出版社,,47-50
89.张志良主编.1990.植物生理学实验指导.北京:高等教育出版社,154-155
90.朱广廉等.1990.植物生理学实验.北京:北京大学出版社,37-39、242-244
91.西北农业大学植物生理生化教研组.1987.植物生理学实验指导.西安:陕西科学技术出版社,58-59
92. ChitraleKha Chatterjee, Nirmala Nautiyal. 1994. Infuence of changes in manganese and magnesium supply on some spects of wheat physiology. Soil Sci. Plant Nutr, 40(2)191-197
93. R. P. Narwal, Vinod Kumar, J. P. Singh. 1985. Potassium and magnesium relationship in cowpea. Plant and Soil, 86: 129-134.
94. AKinola. A. agboola, R.B. Corey. 1973. The relation ship between soil PH, organic matter, available phosphorus, exchangeable Potassium, Magnesium, and mine elements in the maize tissue. Soil scienle, 115(5): 367-375
95. Tsutomu ohno, D.L. Grunes. 1985. Potassium -magnesium interaction affecting nutrient uptake by wheat forage. Soil Sci. Sco. AM. J, 49: 685-690
96. O.O. Ologunde, R.C. Sorensen. 1982. Influence of concentrations of K and my in nutrient solutions on sorghum. Agronomy Journad 74:41-45
97. M.A. Omar, T. el. Kobbia. 1966. Some observations on the interrelation ships of Potassium and magnesium. Soil scienle, 101(6),437-440
98. G.W. Rehn, R.C. Sorensen. 1985, Effect of Potassium and magnesium applied for corn grown on an Irrigated sandy soil. Soil Sci.Sco. AM. J, 49:1446-1450
99. Fred Adams, J.B. Henderson. 1962. Magnesium availability as affected by deficient and adequate levels of Potassium and lime. Soil science society
Proceedings, 65-68
100. A. S . Bedi, G.S.SeKhon. 1997. Effect of Potassium and magnesium application to soil on the dry-matter yield and Cation composition of maize. J. agric. sci, 88: 753-758
101. Xu H, Heath M C. 1998. Role of Calcium in signal transduction derived the hypersensitive response Caused by basidiospore-derived infection of the cowpea rust fungus. Plant Cell, 10: 585-597
102. Gong M, Li Yi, and Dai X, etal. 1997. Involiement of Calcium and Calmodulin in the acquisition of heatshocK in duced thermotolerance in maize seedings. Plant Phy siCal, 150: 615-621.
103 . CaKmarKi. 1994. Activity of ascorbate-dependant H2O2-slavenging enzywes and leaf chlorosis are leaf chlorsis is enchanced in magnesium and Potassium deficient leaves, but not in phosphorus-deficient leaves. Journal of Experimental Botany. 45(278) : 1259-1266.
104. CaKmarKi, Henfelerc, marschner H. 1994. Patitioning of shoot and root dry matter CarbKdydrates in bean plants suffering from phophrus , Potassium and magnesium deficiency. Journal of Experimental Botany, 45: 1245-1250.
105. Bowler C , Von Montagu M . 1992. Superoxide dismutase and stress tolerance. Ann. Rev. Plant Mol.Biol. 43: 83-116
106. John G. SCandaloos. 1993. Oxygen stress and superoxide dismutase.
107. Neelam P .Mishra, Ranjit K. Mishra, Gauris. Singhal. 1993. Changes in the activities of anti-oxidant enzymes during exposure of intact wheat leaves to strong visible light at different temperatures in the presence of protein synthesis inhibitors. Plant Physiol, 102:903-910
2.李美如,刘鸿先.1996.钙对水稻幼苗抗冷性的影响.植物生理学报,22(4):379-384
3.李延,刘星辉,庄卫民.2000.植物镁素营养生理的研究进展.福建农业大学报,29(1):74-80
4.孙光明,黄建安,陆发熹.1990.岸杂一号狗牙根草的缺镁症状及镁肥效应.土壤学报,27(3):262-268
5.邵岩.1992.镁在烟草生产中的作用.云南农业大学学报,7(2):105-109
6.周卫,林葆.1995.花生苹果钙素吸收机制研究.植物营养与肥科学报,1(1):44-51
7.王晓萍,阮建云等,1995,茶树钾素特性的研究.作物学报,2(2):324-329
8.汪洪,褚天铎.1998.缺镁对菜豆幼苗膜脂过氧化及体内活性氧清除酶系统的影响.植物营养与肥料学报,4(4):368-392
9.刘伟宏,刘飞虎等.1999.植物根部细胞钾离子转运机制及其分子基础.江西农业大学学报,21(4):451-455
10.葛滢,李建东.1993.东北羊 草地钙、镁含量特征的研究.植物生态学与地植物学学报,17(3):264-272.
11.黄燕翔,刘淑欣,熊德中.1995.福建烟区土壤条件与烤烟品质的关系.福建农业大学学报,24(2):201-204.
12.臧小平.1997.土壤铝毒与植物钙镁营养.广西农业科学,(2):80-82.
13.曹志洪,胡国松等.1999,土壤供钾特性和烤烟的钾肥的有效施用.烟叫·科技,(2):33-37
14.李春英,高伟民,陈腊梅,熊德中等.2000福建烟区土壤镁素状况及其施用效果研究.河南农业大学学报,34(1):63-66.
15.云南省烟草科学研究所,晋艳,1999.烟草中钾钙镁相互关系研究初报.云南农业科技,(3):6-9,47.
16.赵鹏,谭金芳.2000.施钾条件下烟草钾与钙镁相互关系的研究.中国烟草学报,6(1):23-25.
17.訾大镇,郭月清主编.1996.烟草栽培.北京:中国农业出版社,113.
18.左天觉著.1993.烟草的生产、生理和生物化学.朱尊译.上海,上海远东出版社,60-63.
19.顾也萍,罗爱武等.1992.钾肥对皖南植烟土壤烟叶含钾量的影响.安微农业科技,3:133-135.
20.胡国松,陈江华等.1996.田间状况下烤烟养分吸收动力学及其在平衡施肥中的应用.中国烟草学报,3(2):14-21.
21.鲁如坤等著.1998.土壤—植物营养学原理和施肥.北京:化学工业出版社,228-230.
22.张效朴,郑根宝,1987.连续施石灰对作物生长及其养分吸收的影响.土壤学报,24(4):243—251.
23.何电源主编.1994.中国南方土壤肥力与栽培植物施肥.北京:科学出版社,89-103
24.(德)K·蒙格尔,(英)E·A·克尔克贝著.1978.植物营养原理,张宜春译.北京:农业出版社,450—469、475—486.
25.浙江农业大学主编.1991.植物营养与肥科,北京:农业出版社,22—26,123.
26.周卫,林葆.1995.植物钙素营养机理研究进展.土壤学进展,23(2):12-17.
27.慕成功主编.1995.钾素营养及施肥技术.北京:中国农业科技出版社,21
28.林葆,周卫,谢晓红.1997.钙肥品种及施用方法对花生肥料的影响.土壤通报,28(4):172-184
29.袁可能编著.1983.植物营养元素的土壤化学.北京:科学出版社,166-290
30.邵岩,雷承和,晋艳.1995.烤烟水培临界值研究.中国烟草学报,2(4):52-56.
31.李绍志,田建国等.1997.钾镁肥在烤烟上的应用效果试验研究初报.烟草科技,2,35-37.
32.郑圣先、罗成秀等.1991.钾、镁营养水平对油茶产量和养分吸收的影响.土壤通报,22(2):87—89.
33.汪洪,褚天锋.1999.植物镁素营养的研究进展.植物学通报,16(3):245-250.
34.施洁斌,泰遂初,单英杰.1997.酸性土壤小麦缺镁与铝及钙、钾元素的关系研究.浙江农业科学,6:282-284
35.李伏生.1994.土壤镁素和镁肥施用的研究.土壤学进展,22(4):18—24
36.许能琨,肖召民等.1985.从粤西植胶区三种土壤看矿质肥料对胶苗组分缺乏症状和生长的影响.热带作物学报,7(2):47-55
37.张桂银,崔彦宏.1994.高产夏玉米镁的吸收与再分配研究.河北农业大学学报,17(1):18-22
38.刘先栋,杨力等.2000.镁、钙肥对肥城桃品质影响及平衡施肥的研究.山东农业大学学报(自然科学版),31(2):173—176
40.章明清,林琼等,1999,闽东南早地土壤镁肥肥效与钾镁平衡施肥技术研究.土壤肥料,1:27—29,41
41.杜承林,雷和英等.1997.钾镁肥在烤烟上的应用效果的研究初报.烟草科技,(2),35-37
42.史瑞和等著.1989.植物营养原理.南京:江苏科技出版社,358-368
43.邹邦基等著.1985.植物的营养.北京:农业出版社,195-206
44.吴洵.1994.茶树的钙镁营养及土壤调控.茶叶科学,14(2):115-121
45.韩志卿,张电学等.1992.冀东褐土区施用石膏对花生生长发育和钙、镁吸收分配的影响.中国油科,18(2):62-66
46.宋国菡,杨力.1998.钙对结球甘蓝钙镁硫吸收分配影响的研究.山东农业大学学报,29(4):495-501
47.谭红,何锦林.1994.钾、钙、镁营养水平对白三叶养分吸收的影响.四川草原,2:15-16,22
48.陈际型,宣家祥.1999.低盐基土壤K、Ca、Mg的交互作用对水稻生长与养分吸收的影响.36(4):433-439.
49.[美]芒森 RD主编.1995.农业中的钾、范钦桢、郑文钦等译.北京:科学出版社,277-360,814-829.
50.李佛琳,彭桂芬等.1999.我国烟草钾素研究的现状与展望.中国烟草科学,1:22-25
51.倪吾钟、何愈祖等.1997.钾对大白菜的营养作用及其生理机制研究.植物营养与肥料学报,3(2):117-121
52.刘咏梅.1997.低钾对番红花长合作用的影响[J].西南师范大学学报,4:426-429
53.黄建中,饶立华,陆定志.1991,钾营养对杂交稻叶片发育期间光合作用的影响.植物生理学通讯,27(2):91-94
54.刘咏梅.1999.低押对番红花叶片中SUD、CAT、POD酶活性和MDA的影响.西南师范大学学报(自然科学版),24(1):116-119.
55.付国占,李友军等.1997.增施钾肥对小麦旗叶活性氧代谢及产量的影响.麦类作物,17(5):52-54
56.胡国松,郑陆等编者.2000.烤烟营养原理,162-163
57.宋克敏,姚光勋等.1995.营养液缺钙或铁钾对糜子幼苗抗旱性的影响.植物生理学报,21(1):35-42
58.何萍,金继运.1999.氮钾营养对春玉米叶片衰老过程中激素变化与活性氧代谢的影响.植物营养与肥料学报,5(4):289-297
59.汪邓民,范思锋.1999.钾素对烤烟成熟生理变化及成熟度影响的研究.植物营养与肥料学报,5(3):244-248
60.宰学明,吴国荣.2001.Ca2+对花生幼苗耐热性和活性氧代谢的影响.中国油料作物学报,23(1):46-50
61.段咏新,宋松泉,傅家瑞.1999.钙对杂交水稻叶片中活性氧防御酶的影响.生物学杂志,16(1):16-17
62.赵会杰.1996.烤烟叶片成熟过程中膜脂过氧化及脂肪酸含量变化的研究.烟草科技,3:32-34
63.缪颖,毛琦,巢建福等.1991.钙处理对水密桃和梨果实中钙含量细胞膜透明性和代谢产物的影响.植物生理学通讯,27:184-188
64.杨宇虹、崔国明等.1999.钙对烟产质量及其主要植物学性状的影响.云南农业大学学报,14(2):148-152
65.龚明,李英.1990,植物体内的钙信使系统.植物学通讯,7(3):19-29
66.赵可夫,卢元芳等.1993.钙对小麦幼苗降低盐害效应的研究.植物学报,35(1):51-56
67.程林梅.1998.钙处理对土壤干旱下棉花幼苗生理生化指标的影响.植物学通报.15(6):70-72
68.段咏新,宋松泉,傅家瑞.1997.钙对延缓杂交水稻叶片衰老的作用机理.杂交水稻,12(6):23-25
69.洪洪水,赵海泉.1999.Cacl_2对月季切花衰老的影响.园艺学报,26(1):62-64
70.邓美玲,龙云,谈锋.1999.Ca~(2+)对番红花叶片中活性氧代谢的影响.西南师范大学学报(自然科学版),24(1):87-91
71.李延,泰遂初.1995.镁对水稻糖、淀粉积累与运转的影响.福建农业大学学报,24(1):54-57
72.李延,刘星辉,庄卫民.2000.缺镁对龙眼叶组织活性氧代谢及膜系统的影响.热带作物学报,21(4):39-44.
73.李延,刘星辉,庄卫民.2000.植物Mg素营养生理的研究进展.福建农业大学学报,29(1):74-80
74.卢必威.1984.蔬菜缺钙及钙的施用.土壤肥料,(5):27-28
75.何电源.1981.红壤的酸性与作物的生长及石灰施用的研究.农业现代法研究,(2):33-40
76.李伏生.1991.南方几种土壤镁素释放和固定的初步研究.土壤通报,22(3):115-118
77.(美)S.L.蒂斯代尔.1984.土壤肥力与肥料.孙秀廷译.北京:科学出版社,146-167
78.秦遂初.1988.作物营养障碍的诊断及其防治.杭州:科学技术出版社,214-221
79.罗安程.1995.“花而不实”油菜体内硼与氮、钾、镁和钙关系的研究.土壤肥料,(2):39-41
80.韩锦峰等编著.1986.烟草栽培生理.北京:农业出版社,71-139
81.韩锦峰,汪耀富,林学梧.1994.烤烟叶片成熟度与细胞膜过氧化及体内保护酶活性关系的研究.中国烟叶学报,2(1):20-24
82.陈少裕.1992.甘蔗叶片衰老与脂膜过氧化.作物学报,18(2):111-115
83.中国家科院烟草研究所主编.1987.中国烟草栽培学.上海:上海科学技术出版社,38-137
84.南京农业大学主编.1981.土壤农化分析.北京:农业出版社,84-104
85.鲁如坤等编著.土壤农业化学分析方法.北京:中国农业科技出版社,1-292
86.(苏)X..H.波钦诺克编著.1981.植物生物化学分析方法.荆家海,丁钟荣等译.北京:科学出版社,255-259
87.中国科学院上海植物生理研究所,上海市植物生理学会编著.1999,现代植物生理学实验指南,北京:科学出版社,152-154
88.文树基主编.1994,基础生物化学实验指导.陕西:陕西科学技术出版社,,47-50
89.张志良主编.1990.植物生理学实验指导.北京:高等教育出版社,154-155
90.朱广廉等.1990.植物生理学实验.北京:北京大学出版社,37-39、242-244
91.西北农业大学植物生理生化教研组.1987.植物生理学实验指导.西安:陕西科学技术出版社,58-59
92. ChitraleKha Chatterjee, Nirmala Nautiyal. 1994. Infuence of changes in manganese and magnesium supply on some spects of wheat physiology. Soil Sci. Plant Nutr, 40(2)191-197
93. R. P. Narwal, Vinod Kumar, J. P. Singh. 1985. Potassium and magnesium relationship in cowpea. Plant and Soil, 86: 129-134.
94. AKinola. A. agboola, R.B. Corey. 1973. The relation ship between soil PH, organic matter, available phosphorus, exchangeable Potassium, Magnesium, and mine elements in the maize tissue. Soil scienle, 115(5): 367-375
95. Tsutomu ohno, D.L. Grunes. 1985. Potassium -magnesium interaction affecting nutrient uptake by wheat forage. Soil Sci. Sco. AM. J, 49: 685-690
96. O.O. Ologunde, R.C. Sorensen. 1982. Influence of concentrations of K and my in nutrient solutions on sorghum. Agronomy Journad 74:41-45
97. M.A. Omar, T. el. Kobbia. 1966. Some observations on the interrelation ships of Potassium and magnesium. Soil scienle, 101(6),437-440
98. G.W. Rehn, R.C. Sorensen. 1985, Effect of Potassium and magnesium applied for corn grown on an Irrigated sandy soil. Soil Sci.Sco. AM. J, 49:1446-1450
99. Fred Adams, J.B. Henderson. 1962. Magnesium availability as affected by deficient and adequate levels of Potassium and lime. Soil science society
Proceedings, 65-68
100. A. S . Bedi, G.S.SeKhon. 1997. Effect of Potassium and magnesium application to soil on the dry-matter yield and Cation composition of maize. J. agric. sci, 88: 753-758
101. Xu H, Heath M C. 1998. Role of Calcium in signal transduction derived the hypersensitive response Caused by basidiospore-derived infection of the cowpea rust fungus. Plant Cell, 10: 585-597
102. Gong M, Li Yi, and Dai X, etal. 1997. Involiement of Calcium and Calmodulin in the acquisition of heatshocK in duced thermotolerance in maize seedings. Plant Phy siCal, 150: 615-621.
103 . CaKmarKi. 1994. Activity of ascorbate-dependant H2O2-slavenging enzywes and leaf chlorosis are leaf chlorsis is enchanced in magnesium and Potassium deficient leaves, but not in phosphorus-deficient leaves. Journal of Experimental Botany. 45(278) : 1259-1266.
104. CaKmarKi, Henfelerc, marschner H. 1994. Patitioning of shoot and root dry matter CarbKdydrates in bean plants suffering from phophrus , Potassium and magnesium deficiency. Journal of Experimental Botany, 45: 1245-1250.
105. Bowler C , Von Montagu M . 1992. Superoxide dismutase and stress tolerance. Ann. Rev. Plant Mol.Biol. 43: 83-116
106. John G. SCandaloos. 1993. Oxygen stress and superoxide dismutase.
107. Neelam P .Mishra, Ranjit K. Mishra, Gauris. Singhal. 1993. Changes in the activities of anti-oxidant enzymes during exposure of intact wheat leaves to strong visible light at different temperatures in the presence of protein synthesis inhibitors. Plant Physiol, 102:903-910