T. El-Katony, A. Khedr, S. Abo-Shosha, A. El-Biany, I. Omar
{"title":"氮源形式影响尼罗河三角洲沿岸两种同属的鲁梅斯物种对磷营养的响应","authors":"T. El-Katony, A. Khedr, S. Abo-Shosha, A. El-Biany, I. Omar","doi":"10.21608/sjdfs.2021.195587","DOIUrl":null,"url":null,"abstract":"Phosphorus and nitrogen are limiting plant nutrients in young and old weathered soils, respectively. We investigated the N × P interaction on performance of Rumex dentatus and R. pictus . Plants were grown on washed sand and supplied with 11 mM N either as nitrate or ammonium and 0.01, 0.15, 0.40, 1.0 and 1.5 mM P. Rumex , particularly R. dentatus , preferred nitrate over ammonium as N source. Nitrate nutrition favored succulence of R. dentatus but the reverse was true in R. pictus. The optimum P supply of Rumex spp. under nitrate (0.4 mM) was lower than that under ammonium nutrition (1.5 mM P). R. dentatus exhibited less number of leaves but longer and wider blades compared with R. pictus . Allocation of plant biomass to root was favored under ammonium nutrition and P deficiency, particularly in R. pictus . Increasing P supply increased Chl a and carotenoid concentrations but reduced Chl b concentration. Soluble sugars were higher under nitrate nutrition compared with ammonium only in R. pictus , with limited effect of P supply. The higher proline concentration under ammonium compared with nitrate nutrition and under P deficiency is not a consequence of impaired protein synthesis and suggests that ammonium might be stressful, particularly to R. dentatus . Only in R. dentatus , nitrate nutrition led to higher phenolic concentration and DPPH scavenging activity but to lower malondialdehyde content relative to ammonium. Increasing P supply increased phenolic concentration and DPPH scavenging activity but reduced malondialdehyde content. The concentrations of K+ and Na+ in the shoot were non-significantly affected by the form of N but exhibited marked genotypic variability in favor of R . dentatus. Increasing P supply non-significantly affected shoot K+ concentration but reduced Na+ concentration. Shoot nitrogen concentration was higher in R . dentatus than R. pictus and under nitrate over ammonium nutrition only in R. pictus. The increase in P supply increased P concentration particularly in the ammonium-fed plants. Phosphorus concentration of the shoot was significantly higher in R. pictus than R. dentatus under ammonium nutrition but the reverse was true under nitrate nutrition.","PeriodicalId":21655,"journal":{"name":"Scientific Journal for Damietta Faculty of Science","volume":"64 1","pages":""},"PeriodicalIF":0.0000,"publicationDate":"2021-09-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Form of the Nitrogen Source Affects the Response of the Two Congeneric Rumex Species to Phosphorus Nutrition in The Nile Delta Coast\",\"authors\":\"T. El-Katony, A. Khedr, S. Abo-Shosha, A. El-Biany, I. Omar\",\"doi\":\"10.21608/sjdfs.2021.195587\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"Phosphorus and nitrogen are limiting plant nutrients in young and old weathered soils, respectively. We investigated the N × P interaction on performance of Rumex dentatus and R. pictus . Plants were grown on washed sand and supplied with 11 mM N either as nitrate or ammonium and 0.01, 0.15, 0.40, 1.0 and 1.5 mM P. Rumex , particularly R. dentatus , preferred nitrate over ammonium as N source. Nitrate nutrition favored succulence of R. dentatus but the reverse was true in R. pictus. The optimum P supply of Rumex spp. under nitrate (0.4 mM) was lower than that under ammonium nutrition (1.5 mM P). R. dentatus exhibited less number of leaves but longer and wider blades compared with R. pictus . Allocation of plant biomass to root was favored under ammonium nutrition and P deficiency, particularly in R. pictus . Increasing P supply increased Chl a and carotenoid concentrations but reduced Chl b concentration. Soluble sugars were higher under nitrate nutrition compared with ammonium only in R. pictus , with limited effect of P supply. The higher proline concentration under ammonium compared with nitrate nutrition and under P deficiency is not a consequence of impaired protein synthesis and suggests that ammonium might be stressful, particularly to R. dentatus . Only in R. dentatus , nitrate nutrition led to higher phenolic concentration and DPPH scavenging activity but to lower malondialdehyde content relative to ammonium. Increasing P supply increased phenolic concentration and DPPH scavenging activity but reduced malondialdehyde content. The concentrations of K+ and Na+ in the shoot were non-significantly affected by the form of N but exhibited marked genotypic variability in favor of R . dentatus. Increasing P supply non-significantly affected shoot K+ concentration but reduced Na+ concentration. Shoot nitrogen concentration was higher in R . dentatus than R. pictus and under nitrate over ammonium nutrition only in R. pictus. The increase in P supply increased P concentration particularly in the ammonium-fed plants. 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引用次数: 0
摘要
磷和氮在年轻和年老风化土壤中分别是限制性植物养分。研究了氮磷互作对牙鼠和纹鼠生产性能的影响。植物生长在洗砂上,硝态氮和铵态氮分别为11 mM和0.01、0.15、0.40、1.0和1.5 mM。硝酸盐营养有利于齿齿鼠肉质生长,而相反。硝态氮(0.4 mM)比铵态氮(1.5 mM P)的最适供磷量要低,齿齿鼠叶片数量少,叶片长且宽。在缺磷和铵态营养条件下,植物生物量更有利于分配给根系,尤以油松为甚。增加磷供应增加了Chl a和类胡萝卜素浓度,但降低了Chl b浓度。在硝态氮营养条件下,白杨的可溶性糖含量高于单纯铵态氮营养条件下的可溶性糖含量,而磷供应对白杨的影响有限。与硝态营养和缺磷条件下相比,在铵态营养条件下脯氨酸浓度较高并非蛋白质合成受损的结果,这表明铵态营养可能对齿齿田鼠产生了应激,尤其是对齿齿田鼠。只有在齿鼠中,硝酸盐营养提高了酚类物质浓度和清除DPPH的活性,但相对于铵,丙二醛含量降低。增加P供应增加酚浓度和DPPH清除活性,但降低丙二醛含量。茎部K+和Na+浓度受N形态的影响不显著,但表现出显著的基因型变异,有利于R。dentatus。增加磷供应对茎部K+浓度影响不显著,但降低了Na+浓度。地上部氮浓度较高。而在硝态氮营养下,虎斑田鼠的齿形优于虎斑田鼠。磷供应的增加增加了磷浓度,特别是在氨供植物中。在铵态营养条件下,画眉田笋部磷含量显著高于齿齿田笋部磷含量,而在硝态营养条件下则相反。
Form of the Nitrogen Source Affects the Response of the Two Congeneric Rumex Species to Phosphorus Nutrition in The Nile Delta Coast
Phosphorus and nitrogen are limiting plant nutrients in young and old weathered soils, respectively. We investigated the N × P interaction on performance of Rumex dentatus and R. pictus . Plants were grown on washed sand and supplied with 11 mM N either as nitrate or ammonium and 0.01, 0.15, 0.40, 1.0 and 1.5 mM P. Rumex , particularly R. dentatus , preferred nitrate over ammonium as N source. Nitrate nutrition favored succulence of R. dentatus but the reverse was true in R. pictus. The optimum P supply of Rumex spp. under nitrate (0.4 mM) was lower than that under ammonium nutrition (1.5 mM P). R. dentatus exhibited less number of leaves but longer and wider blades compared with R. pictus . Allocation of plant biomass to root was favored under ammonium nutrition and P deficiency, particularly in R. pictus . Increasing P supply increased Chl a and carotenoid concentrations but reduced Chl b concentration. Soluble sugars were higher under nitrate nutrition compared with ammonium only in R. pictus , with limited effect of P supply. The higher proline concentration under ammonium compared with nitrate nutrition and under P deficiency is not a consequence of impaired protein synthesis and suggests that ammonium might be stressful, particularly to R. dentatus . Only in R. dentatus , nitrate nutrition led to higher phenolic concentration and DPPH scavenging activity but to lower malondialdehyde content relative to ammonium. Increasing P supply increased phenolic concentration and DPPH scavenging activity but reduced malondialdehyde content. The concentrations of K+ and Na+ in the shoot were non-significantly affected by the form of N but exhibited marked genotypic variability in favor of R . dentatus. Increasing P supply non-significantly affected shoot K+ concentration but reduced Na+ concentration. Shoot nitrogen concentration was higher in R . dentatus than R. pictus and under nitrate over ammonium nutrition only in R. pictus. The increase in P supply increased P concentration particularly in the ammonium-fed plants. Phosphorus concentration of the shoot was significantly higher in R. pictus than R. dentatus under ammonium nutrition but the reverse was true under nitrate nutrition.
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