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1.
应用3 2 P研究了不同臭氧浓度对水培烤烟吸收磷素营养的影响。结果表明 :在水培法中低浓度臭氧使根对磷素吸收量所占全植株的百分率随培植时间而减少 ,而茎则随培植时间而增加 ;高浓度臭氧则在整个培植期间根、茎的吸收变化不大。两种培植方法磷素在叶中的分布情况都是 :下叶 >中叶 >上叶。烟株各部分的吸收情况 ,根 >茎 >下叶 >中叶 >上叶 ,且两种培植方法对磷的吸收量都与培植时间呈显著正相关 ,高浓度比低浓度臭氧吸收的磷多而快 相似文献
2.
施磷量对不同磷效率小麦氮、磷、钾积累与分配的影响 总被引:6,自引:0,他引:6
在土培盆栽条件下,以磷高效小麦(CD1158-7、省A3宜03-4)和磷低效小麦(渝02321)为材料,研究了不施磷、施磷(P)10、20和30mg/kg对小麦不同生育时期生物量、籽粒产量及氮、磷、钾的积累与分配的影响。结果表明:(1)随施磷量的减少,不同磷效率品种小麦籽粒产量和生物量均减少;同一施磷处理,磷高效品种籽粒产量和生物产量高于磷低效基因型。不施磷、施磷10mg/kg,高效品种CD1158-7、省A3宜03-4的籽粒产量为低效品种渝02321 的1.84 倍和1.74倍、1.64倍和1.27倍。(2)低磷处理,磷高效品种小麦植株能够积累较多的氮素;扬花期之前,磷高效品种氮素积累量占小麦全生育期积累量的比例高于低效品种。拔节期、孕穗期氮素分配比例为叶>茎>根,扬花期为叶>茎>穗>根,而成熟期为籽粒、颖壳>茎>叶>根。拔节期和孕穗期磷高效品种根的氮素分配比例高于低效品种,而扬花期和成熟期磷高效品种穗(籽粒)氮素分配比例较高。(3)小麦植株磷素积累量主要集中在拔节期以后的生育时期,占全生育期的82.32%~94.23%。低磷处理,高效品种在拔节期和孕穗期磷素积累量高于低效品种,孕穗期尤为突出。扬花期之前,不施磷处理下,磷高效品种根的磷素分配比例较高。(4)不同施磷处理下,拔节期、孕穗期及扬花期,磷高效品种小麦的钾积累量高于低效品种。不同器官钾素分配比例拔节期和孕穗期均为叶>茎>根,扬花期为茎>叶>穗>根,成熟期为茎>叶>籽粒、颖壳>根。磷高效品种在颖壳和籽粒的钾素分配比例高于低效品种。 相似文献
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采用盆栽方法,研究了模拟酸雨和外源铝对茶树铝及一些营养元素吸收积累的影响,以期为酸沉降区茶园管理提供资料。结果表明,随着外源铝浓度的增加,茶树根、茎和叶中铝含量增加,在适度浓度外源铝处理下,模拟酸雨促进茶树根、茎和叶对铝的吸收与积累,高酸高铝则抑制茶树各器官中铝的积累。外源铝促进茶树根、茎和叶对磷、铜和铁的吸收与积累,促进茶树茎和叶对钾的吸收与积累,对茶树根中钾含量没有明显的影响,外源铝抑制茶树根对钙、镁和锌的吸收与积累,但不影响它们在茶树中的运输,茎和叶中含量增加。模拟酸雨对茶树根和茎中磷含量没有明显影响,pH4.5的模拟酸雨有利于茶叶磷的积累,模拟酸雨对茶树根、茎和叶中钾、钙、镁、铜和锌含量没有明显的影响。无外源铝处理下,模拟酸雨降低茶树根系中铁的含量,对茎和叶中铁含量没有明显影响,外源铝处理下,模拟酸雨明显降低茶树根、茎和叶中铁的含量,并且外源铝处理浓度越高,模拟酸雨对根、茎和叶中铁含量的降低幅度越大。 相似文献
4.
红芸豆养分限制因子及养分吸收、积累和分配特征研究 总被引:3,自引:2,他引:1
研究红芸豆养分限制因子、植株干物质和氮、磷、钾养分积累及分配规律,可为红芸豆合理施肥及高产栽培提供理论依据。大田试验条件下,以‘英国红’红芸豆为试材,设置缺素试验,采集全施肥区植株样品,分析研究红芸豆不同生育时期各器官干物质量、养分含量及积累量。结果显示,氮磷钾配合全施显著提高红芸豆产量;缺氮、缺磷、缺钾处理与全施肥处理相比,产量分别降低14.2%、8.0%和11.3%,表明影响红芸豆产量的限制因子为氮钾磷。在整个生育期,红芸豆干物质累积速率先升高后降低;根、茎、荚皮和豆粒干物质累积量呈上升趋势,叶干物质在收获期有下降趋势,收获时不同部位干物质量为豆粒茎≈荚皮叶片根。随生育期推进,茎、叶和荚皮中氮含量呈递减趋势,豆粒中氮含量呈递增趋势,而各器官磷、钾含量呈递减趋势。盛花期到结荚期是养分累积最大期,其氮、磷、钾吸收量分别占整个生育期吸收总量的28.14%、49.22%和56.20%;不同器官吸收累积氮、磷、钾量不同,成熟期豆粒、叶、茎和根中均为累积氮最多、钾次之、磷最少,荚皮中累积钾最多、氮次之、磷最少。每生产100 kg红芸豆需供给N 4.37 kg、P2O5 2.38 kg、K2O 3.53 kg,比例为1∶0.54∶0.81。 相似文献
5.
水磷耦合烤烟养分吸收分配规律研究 总被引:2,自引:1,他引:1
为探究烤烟适宜的水磷耦合模式及其对氮、磷、钾养分吸收积累的影响。采用田间小区试验,试验设置3种灌水水平和施磷水平,分别为低水(W_1:0.50 L/株)、中水(W_2:1.00 L/株)、高水(W_3:2.00 L/株)和低磷(P_1:32 kg/hm^2)、中磷(P_2:64 kg/hm^2)、高磷(P_3:96 kg/hm^2),研究了不同施磷量和灌水量条件下烤烟对氮磷钾养分吸收积累的影响。结果表明:施磷量相同时,灌水处理能够明显增加烟株对氮、磷、钾养分的吸收积累量,表现为:W_3P_i>W_2P_i>W_1P_i>CK_i(其中i=1或2或3);当灌水量相同时,增加施磷量也有利于烟株对氮磷钾养分的吸收积累,且在施磷水平为96 kg/hm^2时表现较好,表现为:W_iP_3>W_iP_2>W_iP_1;高磷水平下,灌水量为1.00,2.00 L/株时,W_3P_3和W_2P_3处理烟株对氮磷钾养分的吸收积累量差异不显著;烟株和根、茎、叶各器官对钾的吸收量高于氮和磷,氮、磷、钾在根、茎、叶器官中的分配顺序呈现叶>茎>根的变化规律;在烟株的不同生育期,对养分的吸收积累量和积累强度存在差异。烟株对养分的吸收积累主要在旺长期,烟叶是养分的主要吸收积累器官;施磷量为96 kg/hm^2,灌水量为1.00~2.00 L/株的水磷耦合处理在促进烟株对氮磷钾养分的吸收积累方面效果较好。烤烟施肥中要注意调整氮磷钾的施用比例和水磷耦合配比。 相似文献
6.
在日光温室条件下以番茄为供试作物,以不施钾肥为对照(CK),设置5个钾肥施用量T1(150kg/hm~2)、T2(300 kg/hm~2)、T3(450 kg/hm~2)、T4(600 kg/hm~2)、T5(750 kg/hm~2),研究钾肥用量对番茄生长及钙、镁养分吸收特性的影响,此研究将为设施条件下蔬菜平衡施肥提供理论依据与技术支撑。结果表明:1)随着施钾量的增加,番茄健康根尖数量显著增加,根系总面积、不同级别分枝数有增加趋势;2)施用钾肥后番茄在苗期株高较CK增加15.8%,根、茎、叶生物量显著增加,其中T5处理根、茎、叶生物量分别较CK增加56.8%、27.1%和33.2%;3)随着施钾量的增加产量逐渐增加,T5较CK提高了15.11%;4)随着施钾量的增加,根、茎、叶各器官中钾、镁浓度显著增加,但果实中钾、镁浓度显著降低;随着施钾量的增加,根、茎、叶、果实各器官中钙浓度均显著降低。由此可见,施钾能够显著提高番茄生物量及产量,能够增加番茄营养器官对钾、镁的吸收,但施钾显著抑制了番茄对钙的吸收及钾、钙、镁向果实的转运。 相似文献
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8.
不同氮素形态对干旱胁迫杉木幼苗养分吸收及分配的影响 总被引:2,自引:1,他引:1
【目的】干旱胁迫是限制植物生长的重要非生物因素之一,而适宜的氮素营养可以提高植物的抗旱性。本文探讨了供应不同形态氮源对干旱条件下杉木[Cunninghamia lanceolata (Lamb.) Hook]幼苗养分吸收及分配的影响。【方法】采用水培试验,供试杉木材料为2个无性系幼苗(7–14号和8–8号),在营养液中添加10%(w/v)PEG-6000进行干旱胁迫。营养液中的氮源处理包括硝态氮、铵态氮、硝铵混合氮,氮素浓度均为4.571mmol/L,每个品种均设6个处理。培养20天后,测定了杉木幼苗根、茎、叶的养分含量及生物量。【结果】与正常水分供应相比较,干旱胁迫条件下供应铵态氮可促进叶片N、K以及茎叶P、K的吸收,供应混合氮可促进根部K的吸收;供应铵态氮可促进根、茎对Ca的吸收,对叶片Ca无明显作用。干旱胁迫对根部Fe、Mn、Cu、Zn吸收量影响显著,氮素供应不同程度地降低了干旱胁迫下各器官Mg、Fe、Mn和Cu吸收量,表现为抑制吸收,但添加铵态氮比硝态氮的降低幅度小。3个氮源处理均降低了干旱条件下根部Zn吸收量,但没有降低甚至增加了茎、叶中Zn的吸收量,说明氮营养可调节Zn在各器官间的分配,缓解干旱导致的缺锌现象。不同器官之间各养分吸收量差异显著,3个氮源处理中,N和P吸收量表现为叶>根>茎,K和Ca为叶>茎>根,Fe、Cu为根>叶>茎,Mg、Mn和Zn在各器官之间的分配规律不一。铵态氮吸收量均表现为叶>根>茎,且各器官铵态氮吸收量显著高于硝态氮,说明杉木具有明显的喜铵特性。【结论】在干旱胁迫下,氮素供应形态显著影响杉木幼苗对养分的吸收及在各器官中的分配,作用效果因家系品种和元素种类而异。总体来讲,铵态氮提高干旱胁迫下杉木幼苗养分吸收的效果好于硝态氮,杉木可以认为是喜铵植物。 相似文献
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铁和不同形态氮素对玉米植株吸收矿质元素及其在体内分布的影响——Ⅰ.对氮、磷、钾、钙、镁等营养元素的影响 总被引:9,自引:0,他引:9
用营养液培养方法研究了铁和两种形态氮素(NO3--N和NH4+-N)对玉米植株吸收氮、磷、钾等大量元素和钙、镁等中量元素及其在体内分布的影响。结果表明:与NO3--N相比,供应NH4+-N促进了玉米对氮的吸收,在缺铁条件下,降低了对磷、钾、钙及镁的吸收。铁和NH4+-N都显著提高了玉米植株各器官中氮的含量。与NH4+-N处理相比,NO3--N处理的新叶中磷含量显著增加,但铁的供应对植物体内磷的含量无显著影响。使用NO3--N显著提高了玉米新叶和老叶中钾的含量,根和茎中钾的含量无明显影响。铁的供应降低了新叶和老叶中钾的含量。供铁时,NH4+-N处理的玉米新叶中钙和镁的含量显著低于NO3--N处理,而在缺铁时则无显著差异。 相似文献
10.
施氮量对南方甜玉米钾素吸收利用的影响 总被引:4,自引:1,他引:3
11.
氮形态和硫水平对烤烟氮、硫、钾等营养的影响 总被引:4,自引:0,他引:4
红壤和潮土培育烤烟,100%铵态氮、100%硝态氮和50%铵氮+50%硝氮等3种氮形态和2种硫施用量的盆栽试验研究表明,增加硝态氮肥供给比例,有利于烤烟生长,烟株叶片干重、株高、干径增加。施硫增加,各叶位全硫含量均显著增加,下部叶片明显累积较多的硫。硝态氮处理红壤和潮土生长烟叶硫含量降低。烟叶氮含量也受供氮形态影响,硝态氮供给比例增加,烟叶全氮含量均较高。供硫增加,烟叶钾含量下降;100%铵氮处理烟叶钾累积较多,NH4+没有抑制K的吸收。 相似文献
12.
不同供钾水平下烤烟体内钾的循环、累积和分配 总被引:52,自引:1,他引:51
在营养液培养条件下 ,利用Jeschke等人建立的模型 ,定量研究了不同供钾水平下烤烟体内钾的循环、累积和分配。结果表明 ,供钾水平对烤烟干物重影响不显著 ;供钾水平提高能显著提高烤烟叶片以及根和茎的含钾量 ,增加烤烟体内钾素累积。不同供钾水平下的烤烟 ,在打顶后 10天内 ,体内都有大量钾离子沿韧皮部由地上部回流到根中 ,回流到根中的钾量占由根运输到地上部的钾量的比例大约在 50 %以上。供钾水平低时 ,该比例明显降低 ,供钾水平提高 ,钾循环量增加。不同供钾水平下 ,烤烟体内钾分配比例都是叶片最高 ,根和茎较低 ;打顶后 10天内烤烟叶片中钾分配减少 ,根中钾分配增加 相似文献
13.
采用不同土壤钾水平的多点田间试验,研究了施用钾肥对西瓜植株钾含量以及产量、品质的影响,探讨了西瓜植株各叶位钾含量与西瓜产量之间的相关性,分析了叶片钾含量诊断西瓜钾营养的临界指标。结果表明:西瓜新叶钾含量与西瓜产量达极显著相关关系,相关系数为0.600 8(P_(0.01)=0.575)。90%相对产量下新叶钾含量为32.6 g/kg时,西瓜产量可达91.39 t/hm~2。在极低钾含量(50 mg/kg和70 mg/kg)的土壤上,施用钾肥显著提高西瓜产量、开花期西瓜植株新叶和老叶钾含量;显著提高开花期、坐果期和膨大期西瓜植株茎和根中的钾含量。在低钾含量(84 mg/kg和85 mg/kg)的土壤上,施用钾肥显著提高西瓜产量,提高西瓜果实中的可溶性糖和可溶性固形物的含量而降低可滴定酸含量。随着钾肥施用水平的提高,新叶钾含量有提高趋势,老叶和挂果叶中的钾含量逐渐升高;施用钾肥显著提高坐果期和膨大期西瓜植株茎中钾含量。在中钾含量(170 mg/kg)和高钾含量(260 mg/kg)的土壤上,西瓜开花期新叶钾含量的最大值和最高产量相关联。总之,推荐开花期西瓜新叶钾含量32.61 g/kg为营养诊断临界值。 相似文献
14.
《Communications in Soil Science and Plant Analysis》2012,43(7):573-577
Abstract A potassium specific‐ion electrode equiped with a “sensing module” was compared with atomic absorption for potassium determination in plant tissue. The potentiometric readings were stable and reproducible, and were of the same order of magnitude as those obtained by atomic absorption. The correletion coefficient obtained between the two analytical methods were highly significant; but it was higher for corn leaves, sugarbeet leaf‐blades and petioles respectively. 相似文献
15.
《植物养料与土壤学杂志》2017,180(6):659-666
The high potassium (K)‐fixing capacity of calcareous soils with homogeneous K supply limits crop K concentration. The objective of this study was to determine the increase in the leaf K concentration of tobacco (Nicotiana tabaccum L.) with a heterogeneous K supply. Two field experiments were conducted from 2013 to 2015 with five K rates applied in homogeneous environments and one K rate applied in varying fractions of soil volume (from 0% to 100%) in heterogeneous environments. Under ridge culture, leaf biomass was not significantly affected by homogeneous (K rate) or heterogeneous (patch size) K management. Under homogeneous conditions, increasing the K supply to three times the standard rate used by farmers (249 kg K ha−1) increased leaf K concentration significantly, but the effect was limited and not cost‐effective. Heterogeneous supply of K fertilizer at the standard K rate in patches of 0–40% of soil volume outperformed homogeneous K supply in terms of leaf K concentrations. Furthermore, K fertilizer mixed in intermediate soil volume fractions of 1–20% resulted in higher leaf K concentrations than the smallest (0%) and larger (30–40%) soil fractions. However, such K‐rich patch application should be managed precisely with specific placement due to the sharp reduction in available K with increasing distance from the fertilizer. To maximize the sorption of immobile K, the match between the uptake volume of the rhizosphere and the area available for K diffusion is important. 相似文献
16.
《Communications in Soil Science and Plant Analysis》2012,43(4):265-277
Abstract Analysis of data obtained from samples collected in the Delta area of Mississippi showed that the potassium concentration of young mature and old mature cotton leaf‐blades correlated better with soil test potassium than did that of the apical immature leaf‐blades. Results from field studies indicated that the old mature petiole was the most sensitive indicator of the potassium status of the cotton plants. The potassium concentration in both leaf‐blades and petioles decreased with stage of maturity from early square to early half‐grown boll. Potassium concentration did not fluctuate with sampling at different times of the day. The rate of decline of potassium concentration was greater in petioles of mature cotton leaves than in the leaf‐blades. For mature leaves, the potassium concentration of leaf‐blades was highly correlated with that in petioles, but for immature leaves, the correlation was poor. The rate of decline of potassium concentration in both cotton leaf‐blades and petioles was not affected by potassium fertilization but was a function of maturity stage. 相似文献
17.
Karima Bouhafa Lhoussaine Moughli Rachid Bouabid Ahmed Douaik Youness Taarabt 《Journal of plant nutrition》2018,41(8):956-968
The study aims to track the dynamics of the olive leaf nitrogen (N), phosphorus (P) and potassium (K) for five olive varieties under drip irrigation in farmer's fields in central Morocco. Leaf sampling was done every month from May 2014 to April 2015. Leaf macronutrients contents showed variation over time. Olive leaves have maintained the same N content throughout the study period indicating a continuing olive uptake of nitrogen. Higher leaf P absorption was observed during flowering and fruit magnification periods indicating the important P needs of olive during these periods. Olive leaf K levels were higher from September to December indicating the high K needs of olive. No variety effect was revealed on the leaf N, P and K contents. Very highly significant differences were found between the leaf N and K levels measured at different sampling periods. The leaf P concentration was statistically equal in all measuring periods. 相似文献
18.
采用水培试验,研究了在两种供钾水平(K,0.5mmolL-1和5.0mmolL-1)条件下4个不同籽粒苋品种植株体内矿质营养元素的含量及其变化。同时,还在低钾条件下,测定了不同籽粒苋品种根、茎、叶中矿质营养成分的含量和构成情况,结果表明:(1)籽粒苋各品种氮、钾含量随着供钾水平降低而减少,一般基因型氮钾含量降幅大于富钾基因型;在相同供钾水平条件下,富钾基因型的氮钾含量均高于一般基因型,而相同基因型的不同品种间氮钾含量则相近。籽粒苋各品种氮主要分布在根和叶中,其次是茎;磷大量分布在根,其次是叶,再次是茎;钾主要存在于茎中,根和叶次之。(2)籽粒苋钙、镁、硫含量随着供钾水平的升高而降低,富钾基因型镁、硫含量低于一般基因型。籽粒苋不同品种的钙、镁主要分布在叶片中,其次是茎和根;硫在根中的分布最少,叶中最多。(3)不同品种B、Cu、Fe、Mn、Zn等微量元素含量随着供钾水平的降低而升高,灰分含量则降低。富钾基因型B、Fe、Zn及灰分含量都高于一般基因型,而Cu的含量则是一般基因型高于富钾基因型。4个籽粒苋品种的硼、铜主要存在于叶片中,其次是根,茎含量相对前两者要小;铁、锰、锌在根的含量最高,叶片次之,茎最低,根系中铁的含量分别是叶和茎的7倍左右和10倍以上。 相似文献
19.
水钾一体化对烤烟钾素吸收及生长的影响 总被引:5,自引:1,他引:4
20.
Soil and tissue analyses are usually used in identifying potassium(K) deficiencies and predicting K fertilizer requirements of crops.The critical levels of both soil and fresh leaf tissue at seventh leaf stage were developed and assessed for canola,chickpea and sunflower grown on two saskatchewan,soils,with six rates of K fertilizer supply.in a growth chamber experiment.The available potassium in soils was detemined by two methods:1)resin strip extraction,and 2)NH4OAC extraction.The potassium in fresh leaves was determined at seventh leaf stage by a simple procedure using a common garlic press and injector to extract the plant sap and testing the sap with a handheld ion selection electrode meter,The results showed significant relationships between the resin strip extractable K and NH4OAC extractable K,and between the plant uptake of total K and the supple of available K in the soils determined by the two methods.Good relationships were also found between the potassium in fresh leaves and the plant uptake of totak K for canola,chickpea and sunflower.The resin strip extraction for K was calibrated using common NH4OAC extraction,and recommended for routine analyses because of its simplicity and sensitivity. 相似文献