共查询到19条相似文献,搜索用时 265 毫秒
1.
不同基因型棉花根系对局部供磷的响应特征 总被引:1,自引:0,他引:1
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对甘蓝型油菜磷高效品种B56和磷低效品种B10苗期根系生长状况、根系磷吸收动力学参数和根系分泌酸性磷酸酶特性进行了比较研究。结果表明,在两种供磷条件下,B56的吸磷量均显著高于B10,磷高效品种与磷低效品种相比,B56具有较大的根干重、根长、根表面积和侧根数量。缺磷胁迫条件下,B56的根系磷吸收动力学参数Km显著低于B10;而在正常供磷条件下,两个品种的最大吸收速率Im ax和Km没有显著差异。缺磷条件下,B56的根系分泌酸性磷酸酶活性显著高于B10。 相似文献
3.
小麦不同磷效率品种对不同磷源的利用差异及酸性磷酸酶的作用 总被引:3,自引:0,他引:3
以小麦磷高效利用品种(03-2917)和低效利用品种(S-10-1)为材料,在水培条件下,测定其生物量、磷含量、根系分泌酸性磷酸酶、根系及叶片酸性磷酸酶活性等,研究不同磷素利用效率小麦品种有机磷吸收利用的差异.结果表明:(1)不同供磷条件下,磷高效品种干物质量、磷积累量较低效品种的大,而磷含量低于低效品种.小麦不同磷素利用效率品种均表现为无机磷处理下根冠比大于有机磷处理,磷高效品种在不同施磷处理下根冠比均较大.(2)不同磷效率小麦品种根系分泌酸性磷酸酶活性在低无机磷处理(0.05mmolP·L-1,Ⅳ)下最大,1/2无机磷+1/2有机磷处理(0.30mmolP·L-1,Ⅱ)大于正常有机磷处理.不同磷处理下,高效品种根系分泌酸性磷酸酶活性均大于低效品种.(3)不同磷效率小麦根系与叶片酸性磷酸酶活性呈现为正常无机磷(Ⅰ)<1/2无机磷+1/2有机磷(Ⅱ)<正常有机磷(Ⅲ)<低无机磷(Ⅳ)的处理,且低效品种大于高效品种.(4)无机磷总量在磷处理及品种间表现与酸性磷酸酶相反的趋势,正常无机磷(Ⅰ)>1/2无机磷+1/2有机磷(Ⅱ)>正常有机磷(Ⅲ)>低无机磷(Ⅳ)的处理,高效品种大于低效品种. 相似文献
4.
碳对微生物–根系介导的蔬菜作物磷吸收的影响 总被引:1,自引:1,他引:0
5.
有机肥营养对西瓜品质具有提升效果,但根系对有机肥中养分的吸收机制尚不完全清楚,尤其对磷素的利用机制。本研究关注西瓜根系分泌酸性磷酸酶活性对有机肥施用的响应。采用模拟西瓜根系分泌物的方法研究有机酸对有机肥中可溶性全磷和有效磷含量的影响;采用砂培的方法,研究有机肥中的磷替代化肥磷时西瓜根系分泌酸性磷酸酶活性的响应;采用田间试验研究有机肥替代化肥以及有机肥不同施用量对西瓜根际酸性磷酸酶活性、西瓜磷营养、产量和品质的影响。结果表明,有机肥中水浸提可溶性全磷含量为6.9 g?kg~(-1),可溶性无机磷含量为525.1 mg?kg~(-1),可溶性全磷中无机磷占7.6%,有机磷占92.4%,可溶性有机磷需经过水解后才能被根系吸收。有机肥中磷替代化肥磷时,西瓜根系和根际土壤酸性磷酸酶活性均显著提高,西瓜茎、叶中磷含量提高。施用三倍有机肥时西瓜根际土壤有效磷含量和西瓜产量提高。因此,有机肥中磷替代化肥磷时,西瓜通过提高根系分泌酸性磷酸酶的活性而提高利用有机磷的能力。 相似文献
6.
不同磷效率玉米自交系根系形态与根际特征的差异 总被引:5,自引:0,他引:5
通过三室根袋栽培试验,对3种磷高效型和3种磷低效型的玉米自交系在2种不同磷水平下的植株生物量、吸磷量、根系形态、根际pH值以及根际磷酸酶进行研究,比较不同磷利用率基因型玉米自交系的根系形态及根际特征的差异。结果表明,在低磷情况下,磷利用率高的玉米自交系其植株生物量中的根干重、植株的吸磷量、根系形态中的根尖数与根长以及根际磷酸酶的活性方面均高于磷利用率低的玉米自交系。植株的根部干重:磷高效的1号品种(hp1)显著高于磷低效的2号品种(lp2),hp2显著高于lp1、lp2、lp3;hp1、hp2的地上部与根系的吸磷量均显著高于lp2、lp3。hp1、hp2根尖数、根长显著高于磷低效型的lp2、lp3。hp1、hp2、hp3根际土壤的酸性磷酸酶活性显著高于lp2、lp3。其他指标如植株地上部分干重、pH值,磷高效型玉米自交系也存在一定优势。所有品种中hp2与lp3的差异最为显著。 相似文献
7.
甘蓝型油菜不同磷效率品种苗期根系生长及磷营养的差异 总被引:17,自引:4,他引:17
对甘蓝型油菜磷高效品种 970 81和磷低效品种 97029苗期根系生长状况和体内无机磷含量及酸性磷酸酯酶活性进行了比较。结果表明 ,磷高效品种的主根长 ,根体积、根 /冠比及根系活力受缺磷影响均比低效品种降低9 3、2 1.9、10 .9、7.8个百分点 ,表现出根系良好的适应性。在缺磷条件下 ,2个品种各部位无机磷含量都有所降低 ,而酸性磷酸酯酶活性则增加。其中磷低效品种 970 2 9各部位无机磷含量降低幅度较大 ,酶活性增长较快 ,表明其根系吸收能力较差 ,体内有机磷分解的程度高 ,苗期即需通过再利用来维持其基本生长 ,使后期的生长失去保障。磷高效品种 970 81各部位无机磷所受影响较小 ,酶活性增长较少 ,根系衰老较慢 ,再利用程度小 ,后期生长潜力大。 相似文献
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磷肥减施对玉米根系生长及根际土壤磷组分的影响 总被引:5,自引:1,他引:4
10.
为对比两种磷效率棉花在两种磷水平(0.1和5 mmol/L)的根系形态和根际特征的差异。以磷高效型棉花ZM42和磷低效型棉花XLZ13为研究对象设计砂培花盆分层试验,测定生物量、吸磷量、根系形态数据、分层Olsen-P、 pH值和酸性磷酸酶。结果表明:在砂培条件下两种磷效率棉花生物量和磷素积累量随施磷量的增加均有不同程度增加; ZM42在两种磷处理的根部生物量、吸磷量以及根冠比都优于XLZ13。在两种磷处理下, ZM42根系中根径(0~0.4 mm)的细根长度较XLZ13长,细根在总根长中的比例较高。总根长中细根越多有利于促进植株对磷的吸收。生长介质中磷含量降低时,棉花根际pH值也随之降低,高效品种ZM42的根际pH值降低幅度显著高于XLZ13;两种磷效率棉花在两个时期的根际土壤磷酸酶活性均随着施磷量的减少而增加,磷高效棉花ZM42分泌的土壤磷酸酶活性均高于磷低效棉花XLZ13。由此可见,两种磷效率棉花在相同生长介质中根际机理存在差异,且在低磷胁迫下磷高效棉花根系形态特征改变是根际磷活化主要机理之一。 相似文献
11.
低磷胁迫对不同磷效率基因型烟草苗期生长及生理特征的影响 总被引:1,自引:0,他引:1
为揭示不同磷效率烟草对低磷胁迫的响应机理,以磷高效且耐低磷基因型K326和云烟105及磷低效且低磷敏感基因型G28和中烟101为试验材料,设置低磷(0.01 mmol·L-1,LP)和正常磷(1.00 mmol·L-1,NP)2个处理,研究不同磷效率基因型烟草苗期主要农艺性状及生理指标对低磷处理的反应。结果表明,磷高效基因型的农艺指标(株高、地上部干重、根系干重等)在2种处理中均显著高于磷低效基因型,表明磷高效基因型在LP和NP水平下均能较好生长,对磷素具有较高的吸收或利用效率;在LP下,磷高效基因型的主根长增幅较大,干重、株高等降幅较小,即磷高效品种的生长受低磷影响较小,耐低磷性较强。在生理指标方面,LP条件下磷高效基因型的3种保护酶[过氧化氢酶(CAT)、超氧化物歧化酶(SOD)、过氧化物酶(POD)]和酸性磷酸酶(ACP)活性及可溶性糖和游离脯氨酸含量的增幅较磷低效基因型大,丙二醛(MDA)含量的增幅较小,可溶性蛋白含量、根系活力的降幅较小,水培营养液的pH值降幅较大;磷高效基因型的农艺性状及生理指标的耐低磷指数均高于磷低效基因型。综上,在低磷胁迫中,磷高效基因型烟草具有较强的活性氧清除能力,可累积较多渗透调节物质以维持细胞渗透势,较好地保护细胞,增强体内ACP活性,提高对磷素的吸收利用效率,维持自身的正常生长与代谢。本研究结果为烟草磷素高效吸收利用提供了一定的理论依据。 相似文献
12.
Maire Holz Mohsen Zarebanadkouki Andrea Carminati Joscha N. Becker Marie Spohn 《植物养料与土壤学杂志》2020,183(3):382-388
Background: Phosphatases in soil are of great importance for plant P acquisition. It is hypothesized that root hairs increase rhizosphere phosphatase activity as they release enzymes into soil and stimulate microbial activity. Methods: To test the effect of root hairs on soil phosphatase activity, we grew barley (Hordeum vulgare ‘Pallas') wild type and its root‐hairless mutant in rhizoboxes and determined phosphatase activity using soil zymography. Measurements were done at three moisture levels (30, 15, and 5% VWC). Rhizosphere phosphatase activity was estimated for the two genotypes and two locations along the root [root tip region (0–4 cm behind tip) and mature roots (> 7 cm behind tip)]. Results: Rhizosphere phosphatase activity was similar in the two locations along the root (root tip region vs. mature root parts). In contrast, rhizosphere phosphatase extension was two times larger for the root tip region of the wild type than for the mutant at 30% and 15% VWC. However, as phosphatase activities at the root surface of tips and mature root parts were slightly higher for the mutant than for the wild type, average enzyme activities were unaffected by the genotype. Conclusions: We conclude that the mutant seems to compensate for the lack of root hairs by increased phosphatase activity close to the root surface. However, the increased rhizosphere phosphatase extension for the wild type may be equally efficient as it allows P mobilization and uptake from large soil volumes. 相似文献
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【目的】明确施加镁肥在不同磷处理的土壤上对不同基因型大豆生长及根瘤和菌根性状的影响。【方法】田间试验采用三因素试验设计,设置施P2O5 40 kg/hm2 (P40)和100 kg/hm2 (P100)两个水平,施MgO 0kg/hm2 (Mg0)和75 kg/hm2 (Mg75)两个水平,磷高效基因型粤春03-3 (YC03-3)和磷低效基因型本地2号(BD2)两个大豆基因型。测定了大豆植株干重、单株结荚数、根系性状、根瘤性状、菌根侵染率以及植株氮、磷、镁含量。【结果】P100处理显著增加了两个大豆基因型的植株干重、单株结荚数、总根长、根表面积和体积以及植株氮、磷、镁积累量。施用镁肥,YC03-3在P40和P100处理下植株干重、单株结荚数、植株氮和镁积累量均显著增加,在P100条件下植株磷积累量以及根表面积、根体积、根平均直径显著增加;BD2在P40和P100处理下植株镁积累量显著增加,P40条件下植株氮积累量显著增加。磷和镁处理显著影响大豆与有益微生... 相似文献
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用液培方法并结合田间试验研究了低磷胁迫下小麦的磷素利用效率、光合效率、水分利用效率以及抗衰老能力的基因型差异。结果表明,与低效基因型相比,磷高效基因型的叶绿素含量和CO2固定速率分别高320%和26.0%,叶片膜脂抗过氧化能力高75.0%,蒸腾速率低130.0%,根际土壤含水量高56.6%。在低磷条件下,所有基因型的磷素利用效率都显著提高,但磷高效基因型提高563.0%,而磷低效基因型仅提高66.0%。说明小麦的光能利用效率、植株的保水能力、生物膜的抗氧化能力都与基因型的磷素利用效率密切相关。 相似文献
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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
16.
Liyan Liang Tingting An Shuo Liu Yamin Gao Min Yu Bingcheng Xu Suiqi Zhang Xiping Deng Nanthi Bolan Kadambot H. M. Siddique Yinglong Chen 《植物养料与土壤学杂志》2023,186(3):286-297
Background
Development of an evaluation tool to determine genotypic variation in phosphorus (P) utilization efficiency is essential to ensure crop productivity and farmers’ income under low P environments.Aims
This study aimed to develop an evaluation tool to determine genotypic variation in low-P tolerance and P use efficiency under low P environments.Methods
Root response and P efficiency traits in 20 maize genotypes with contrasting root systems were assessed 32 days after transplanting into the semi-hydroponic root phenotyping system under low P (10 µM) or optimal P (200 µM) supply.Results
Compared to optimal P, low P supply increased root-to-shoot biomass ratio by 48.7% (shoot dry weight decreased by 20.0% and root dry weight increased by 20.6%). Low P supply increased total root length by 17.8% but decreased primary root depth, with no significant change in lateral root number across all genotypes. Low P stress enhanced P utilization efficiency. Based on genotypic variation and correlations among the 17 measured plant traits in response to low P stress, nine traits were converted to low-P tolerance coefficients (LPTC), compressed by principal component analysis. The three principal component scores were extracted for hierarchical cluster analysis and classified the 20 genotypes into three groups with different P efficiency, including two P-efficient genotypes and nine P-inefficient genotypes.Conclusions
The study demonstrated genotypic variation in response to low P stress. The P-efficient genotypes with higher LPTC values better adapted to low P environments by adjusting root architecture and re-distributing P and biomass in plant organs. The systematic cluster analysis using selected traits and their LPTC values can be used as an evaluation tool in assessing P efficiency among the genotypes. 相似文献17.
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《Communications in Soil Science and Plant Analysis》2012,43(19):2796-2808
We investigated the physiological and biochemical differences between the phosphorus (P)–efficient soybean genotype Jindou33 and the P-inefficient soybean genotype Tiefeng3 grown under various P concentrations. When treated with different P concentrations, the P-efficient cultivar Jindou33 had a greater chlorophyll content. With a low P concentration, the soluble protein content of Jindou33 in the branching stage was greater than that of Tiefeng3. The phosphorus-efficient cultivar showed less fluctuation in the leaf P content when the P concentration was changed. When treated with different concentrations of P, Jindou33 showed greater superoxide dismutase (SOD), catalase (CAT), and peroxidase (POD) activity as well as less fluctuation in the SOD and CAT activities when the P concentration was changed. When treated with various concentrations of P, the P-efficient cultivar had a lower content of malondialdehyde in the branching and blooming stages. 相似文献
19.
Molecular size distribution and enzymatic degradation of organic phosphorus in root exudates of spring barley 总被引:1,自引:0,他引:1
Seeds from two varieties of spring barley (Prisma and Camorgue) were grown axenically in water. After 14 days, the culture solutions contained organic P substances (about 4 g P per plant) derived from root exudation, representing about 3% of the total P found in the seed. Gel filtration, separated the organic P into two well defined peaks, one with a high molecular weight (>45000 daltons) and the other with a low molecular weight (<500 daltons). The bioavailability of the soluble organic P released was assessed enzymatically and chemically. At the optimum pH of 5.0, phytase and acid phosphatase hydrolysed about 80% and 65%, respectively of the organic P in the exudate after 24 h whereas at the optimum pH of 9.8, alkaline phosphatase hydrolysed up to 40% P after the same length of time. In a pH 5.0 buffer, up to 10% of the organic P was hydrolysed compared with up to 45% in a pH 9.8 buffer. The high molecular weight organic P fraction recovered from the G-75 Sephadex behaved similarly. 相似文献