MA Ruiping,SUN Yeshuo,ZHANG Guoxin,et al.Absorption and Distribution of Mineral Elements in Greenhouse Tomato Under Salt Stress[J].Northern Horticulture,2024,(11):40-49.[doi:10.11937/bfyy.20240314]
盐胁迫下设施番茄矿质元素吸收分配规律
- Title:
- Absorption and Distribution of Mineral Elements in Greenhouse Tomato Under Salt Stress
- 文章编号:
- 1001-0009(2024)11-0040-10
- Keywords:
- salt stress; tomato; mineral element
- 分类号:
- S 641.2
- 文献标志码:
- A
- 摘要:
- 以设施番茄植株及其器官为试材,采用盆栽法,通过不同NaCl盐分梯度设置土壤盐浓度为0.07%(CK)、0.15%(T1)、0.30%(T2)、0.45%(T3)、0.60%(T4),研究了番茄整株及根、茎、叶、果各器官生物量,氮、磷、钾、钙、镁、钠、铁、锌、铜含量及全株累积量,以期为滨海盐碱地设施番茄提质增效和科学施肥提供参考依据。结果表明:番茄叶、整株干物质量随着土壤含盐量的增大先增后减,0.30%土壤盐浓度下达最大值,根、茎、果占整株的干物质量随着土壤含盐量的增加下降,叶片干物质量随着土壤含盐量的增加升高。氮、磷、钾主要累积在番茄果实中,平均占番茄整株各元素含量的87.02%、72.40%、79.80%。不同程度盐胁迫对氮在番茄各器官中的分配影响较小,但对磷、钾在各器官间分配影响较大,盐浓度越大,磷、钾在果实中的积累量越大。钙和镁在番茄各器官的含量和累积量表现为叶>根>果,随着土壤含盐量的增加番茄果钙、镁含量和累积量减少。随着土壤盐含量升高,番茄叶片和果实钠〖JP+1〗元素累积量显著增加。番茄果铁含量和累积量在0.30%土壤盐浓度下达最大值,番茄根部铜含量较高,随着土壤盐分含量的升高,铜元素向番茄果实的流动减少。
- Abstract:
- Tomato plants and their organs were used as test materials in potted plants.Soil salt concentrations were set according to different NaCl salinity gradients as follows,0.07% (CK),0.15% (T1),0.30% (T2),0.45% (T3),0.60% (T4).The biomass,contents of nitrogen,phosphorus,potassium,calcium,magnesium,sodium,iron,zinc and copper of whole plant and organs of root,stem,leaf and fruit of tomato were studied,in order to provide reference for improving the quality and efficiency of tomato and scientific fertilization in coastal saline-alkali land.The results showed that,the dry matter mass of tomato leaves and whole plant increased first and then decreased with the increase of soil salt content,and the soil salt concentration reached the maximum value at 0.30%.The dry matter mass of roots,stems and fruits in whole plant decreased with the increase of soil salt content,and the dry matter mass of leaves increased with the increase of soil salt content.Nitrogen,phosphorus and potassium mainly accumulated in tomato fruits,accounting for 87.02%,72.40% and 79.80% of all elements in tomato plants on average.Different levels of salt stress had little effect on the distribution of nitrogen in tomato organs,but had great effect on the distribution of phosphorus and potassium among organs.The higher the salt concentration,the greater the accumulation of phosphorus and potassium in fruit.The content and accumulation of calcium and magnesium in tomato organs were as follows,leaf>root>fruit.With the increase of soil salt content,the content and accumulation of calcium and magnesium in tomato fruit decreased.With the increasing of soil salt content,the cumulative sodium content of tomato leaves and fruits increased significantly.The maximum iron content and cumulative content of tomato fruit were reached at 0.30% soil salt concentration,and the copper content of tomato root was higher.With the increase of soil salt content,the flow of copper to tomato fruit decreased.
参考文献/References:
[1]张守才,赵征宇,孙永红,等.设施栽培番茄的氮磷钾肥料效应研究[J].中国土壤与肥料,2016(2):65-71.[2]马荣辉,梁金英,王宪刚,等.化肥减量配施有机肥对设施番茄产量、品质和土壤肥力的影响[J].北方园艺,2023(24):45-51.[3]宋梦圆,李佳璠,许盟盟,等.中微量元素叶面肥处理对樱桃番茄生长、产量和品质的影响[J].北方园艺,2022(6):24-31.[4]陆景陵.植物营养学(上册)[M].2版.北京:中国农业大学出版社,2003.[5]王立峰.滴灌条件下施氮时期对花生生理特性、产量和品质的影响[D].泰安:山东农业大学,2016.[6]段文学,于振文,张永丽,等.施氮量对旱地小麦氮素吸收转运和土壤硝态氮含量的影响[J].中国农业科学,2012,45(15):3040-3048.[7]邱超.钙、镁、硼肥对常山胡柚产量、品质及果实养分累积的影响[D].武汉:华中农业大学,2015.[8]李彬,王志春,孙志高,等.中国盐碱地资源与可持续利用研究[J].干旱地区农业研究,2005,23(2):154-158.[9]刘小京.环渤海缺水区盐碱地改良利用技术研究[J].中国生态农业学报,2018,26(10):1521-1527.[10]YILDIRIM E,EKINCI M,TURAN M,et al.Physiological,morphological and biochemical responses of exogenous hydrogen sulfide in salt-stressed tomato seedlings[J].Sustainability,2023,15(2):1098.[11]ALAM P,ARSHAD M,AL-KHERAIF A A,et al.Silicon nanoparticle-induced regulation of carbohydrate metabolism,photosynthesis,and ROS homeostasis in Solanum lycopersicum subjected to salinity stress[J].ACS Omega,2022,7(36):31834-31844.[12]ZAMANI H,ARVIN M J,ABOUTALEBI JAHROMI A,et al.The effect of methyl jasmonate and sodium silicate on the mineral composition of Solanum lycopersicum L.grown under salinity stress[J].Acta Agrobotanica,2019,72(3):89-118.[13]BALLIU A,SALLAKU G,REWALD B.AMF inoculation enhances growth and improves the nutrient uptake rates of transplanted,salt-stressed tomato seedlings[J].Sustainability,2015,7(12):15967-15981.[14]张国新,姚玉涛,孙叶烁,等.水分调控对滨海盐碱地设施番茄及土壤盐分的影响[J].北方园艺,2021(11):57-62.[15]张国新,丁冯洁,孙叶烁,等.不同时期咸水滴灌对滨海盐碱地设施番茄产量及品质的影响[J].北方园艺,2022(7):60-65.[16]丁守鹏,张国新,姚玉涛,等.咸淡水轮灌对滨海盐碱地设施番茄产量及品质的影响[J].中国农学通报,2022,38(15):40-44.[17]张芙蓉,高艳明,李建设,等.不同浓度微咸水与分根区交替灌溉上下限对设施番茄生长与品质的影响[J].西南农业学报,2023,36(7):1465-1474.[18]蔡绍珍,陈振德.蔬菜的营养与施肥技术[M].青岛:青岛出版社,1997.[19]刘军丽,包婕,李建设,等.限根下不同施钙量对番茄品质、产量及养分的影响[J].西南农业学报,2019,32(10):2403-2411.[20]曹荷莉,丁日升,薛富岚.不同水盐胁迫对番茄生长发育和产量的影响研究[J].灌溉排水学报,2019,38(2):29-35.[21]高若星,郭文忠,韩启彪,等.灌溉水盐分对设施番茄生长、产量及品质的影响[J].北方园艺,2018(19):65-70.[22]陆红飞,郭相平,甄博,等.成熟期水盐胁迫对番茄产量和贮藏期品质的影响[J].灌溉排水学报,2015,34(6):15-19.[23]李伟,姜晶,李天来.不同浓度NaCl处理对番茄果实生长、产量和品质的影响[J].沈阳农业大学学报,2006,37(3):502-504.[24]闫妮.咸水灌溉对番茄生长及产量和品质的影响[D].泰安:山东农业大学,2022.[25]刘连涛,李存东,孙红春,等.氮素营养水平对棉花不同部位叶片衰老的生理效应[J].植物营养与肥料学报,2007,13(5):910-914.[26]JAVEED H M R,WANG X,ALI M,et al.Potential utilization of diluted seawater for the cultivation of some summer vegetable crops:Physiological and nutritional implications[J].Agronomy,2021,11(9):1826.[27]龚一丹.水盐协同调控对番茄增产提质的影响[D].昆明:昆明理工大学,2021.[28]褚屿,骆洪义,林举梅,等.番茄对氮磷钾及中微量元素的吸收规律研究[J].中国土壤与肥料,2021(1):247-255.[29]王芳,刘鹏.土壤镁的植物效应的研究进展[J].江西林业科技,2003,31(1):34-37.[30]李丽霞.微肥对作物产量、品质的影响及其生态环境效应[D].杨凌:西北农林科技大学,2005.[31]廉晓娟,王艳,梁新书,等.不同施肥水平对设施番茄中微量元素吸收的影响[J].江苏农业科学,2020,48(16):197-200.[32]孙颖,胡志强.微量元素的生理功能及其在农业生产中的应用[J].松辽学刊(自然科学版),2001,22(2):74-76.[33]薛玲,吴洵耻,姜广正.栝楼根腐病与某些矿质元素营养的关系[J].山东农业大学学报,1994,25(2):189-192.[34]闫龙民,车勇.某些旷物质元素与栝楼根腐病的关系[J].特产研究,2000,22(2):37-38,43.
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备注/Memo
第一作者简介:马瑞萍(1986-),女,硕士,副研究员,现主要从事设施高效栽培与土壤改良等研究工作。E-mail:marp0825@126.com.责任作者:张国新(1971-),男,本科,研究员,现主要从事盐碱地设施高效生产及咸水安全利用等研究工作。E-mail:nkszhgx@163.com.基金项目:河北省科技创新专项资助项目(2022KJCXZX-BHS-7);唐山市科技计划资助项目(23150203A);河北省现代农业产业技术体系蔬菜创新团队资助项目(HBCT2023100403)。收稿日期:2024-01-21