1) alkaline salt
碱性盐
1.
The seeds of different height Kochia sieversiana seedling plants were stressed with different concentrations of neutral salt(NaCl) and alkaline salt(NaHCO3).
分别用不同浓度的中性盐(NaCl)、碱性盐(NaHCO3)处理不同高度碱地肤(株高分别为10,30和50 cm)植株的种子,比较其种子对2种盐分抗逆性差异。
2.
The seeds of Kochia sieversiana and Kochia scoparia were treated with different concentration of neutral salt(NaCl,NaSO_4) and alkaline salt(NaHCO_3,NaCO_3).
分别用不同浓度的中性盐(NaCl,Na2SO4),碱性盐(NaHCO3,Na2CO3)处理碱地肤、地肤种子,分析各种盐分对两种植物种子萌发的影响。
2) alkalic salt
碱性盐
1.
In general: effects ofalkalic salts were more serious than those of neutral salts.
本论文以具有较高抗盐碱能力的牧草碱地肤(Kochia sieversiana )为实验材料,研究了不同单盐(NaCl、Na_2SO_4、NaHCO_3、Na_2CO_3)、不同比例混合盐处理对碱地肤发芽阶段、幼苗阶段生理特性的影响,总体趋势是:碱性盐的胁迫危害大于中性盐,混合盐中随着碱性盐比例的增加,对碱地肤种子、幼苗的影响也加大;同时以碱地肤为重点,结合生境相近、抗性相似的一些盐生植物(碱蓬、虎尾草、羊草),分析、比较其在野外环境下季节生长的规律。
2.
According to the characters of the salt components in salt-alkaline soil, four salts including two neutral salts (NaCl and Na2SO4) and two alkalic salts (NaHCO3 and Na2CO3), were selected to treat the seedlings of Kochia sieversiana at various concentrations.
根据内陆盐碱地所含盐分的特点,将中性盐NaCl和Na2SO4、碱性盐NaHCO3和Na2CO3按不同浓度对碱地肤苗进行单盐胁迫处理。
3) saline-alkali tolerance
抗盐碱性
1.
Based on summarize the influencing mechanism of arbuscular mycorrhiza on saline-alkali tolerance of plant and action mechanism of alfalfa how to improve the saline-alkali soil,this paper presented the study of potential impact of arbuscular mycorrhiza on saline-alkali tolerance of alfalfa and its future development.
本文在对丛枝菌根对植物抗盐碱性的影响及其机理、紫花苜蓿改良盐碱土的作用机理进行综述的基础上,提出了丛枝菌根对紫花苜蓿抗盐碱性的潜在影响及其研究展望。
4) The Salt Alkaline Bearing Capacity
耐盐碱性
1.
Study On The Salt Alkaline Bearing Capacity of Sweet Corn “Tian Yan NO.3”;
“甜研3号”甜玉米耐盐碱性研究
5) basic salt
碱性盐(类)
6) alkali N/P salt
碱性氮磷盐
1.
The effects on physical properties of secondary fiber, chemi-pretreated respectively with sodium hydroxide, sodium carbonate andalkali N/P salt, are investigated in this paper.
对国内二次纤维原料分别使用NaOH、Na2CO3、碱性氮磷盐三种化学预处理方式进行了研究。
补充资料:生理碱性盐
植物培养在含硝酸钠的溶液中时,植物对硝酸根离子的吸收要比对钠离子的吸收多。由于在吸收环境中no3-的同时,根细胞必定有相同电荷的与之交换,所以环境溶液中浓度增加,并形成了碳酸氢钠,溶液ph上升,呈碱性。植物生理学者把这一类能使土壤碱化的盐称为生理碱性盐。在农业生产上,切忌长期单独使用某一生理酸性盐或生理碱性盐,以防止土壤酸化或碱化。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条