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1.
Amarpreet Singh 《Journal of plant nutrition》2016,39(2):204-218
Field experiments were conducted for two consecutive years on basmati rice (Oryza sativa L.) during summer and rainy seasons (April–November) of 2009 and 2010 in a sandy clay-loam soil (typic Ustochrept) at the research farm of Indian Agricultural Research Institute, New Delhi. The aim of this study was to determine the influence of zinc fertilizer sources [ethylenediamenetetraacetic acid (EDTA)-chelated zinc (Zn; 12% Zn), zinc sulfate heptahydrate (ZnSO4.7H2O; 21% Zn), zinc sulfate monohydrate (ZnSO4.H2O; 33% Zn), zinc oxide (ZnO; 82% Zn), and ZnSO4.7H2O + ZnO (50% + 50%)] and summer green manuring crops [Sesbania aculeata, Crotalaria juncea and Vigna unguiculata] on productivity, Zn-uptake and economics of basmati rice. Among the summer green manuring crops, Sesbania aculeata accumulated highest amount of total dry matter, 5.46 and 5.77 t ha?1 during 2009 and 2010, respectively. Incorporation of Sesbania aculeata also led to a significant increase in grain, straw and biological yields, Zn content and uptake and economics of succeeding basmati rice. With the incorporation of Sesbania aculeata, grain and straw yields of basmati rice was 4.89, 5.56 and 9.04, 10.21 t?1 ha during 2009 and 2010, respectively. Among the Zn fertilizer sources, EDTA-chelated Zn (12% Zn) was found to be the best with respect to grain, straw, and biological yields, Zn content and uptake and economics. Application of EDTA-chelated Zn (12% Zn) recorded the highest basmati rice grain (5.15 and 5.76 t ha?1) and straw yields (9.30 and 10.48 t ha?1) compared to control (no Zn application), which produced 4.09 and 4.75 t ha?1 of grain and 8.13 and 9.39 t ha?1 of straw yields, respectively, during 2009 and 2010. Highest Zn concentration in grain and straw and its uptake was recorded with Sesbania aculeata incorporation compared with Crotalaria juncea, Vigna unguiculata and summer fallow. Highest total Zn uptake in basmati rice was recorded with EDTA-chelated Zn (12% Zn) application, followed by ZnSO4.7H2O (21% Zn), ZnSO4.H2O (33% Zn), ZnSO4.7H2O + ZnO (50% + 50%), ZnO (82% Zn), and control (no Zn application). Sesbania aculeata incorporation and EDTA-chelated Zn (12% Zn) treatments were found a better combination with respect to basmati rice productivity. The best economical returns were obtained with Sesbania aculeata incorporation and ZnSO4.7H2O (21% Zn) combination. Thus, adequate Zn fertilization along with green manure crop incorporation can lead to higher productivity of basmati rice. 相似文献
2.
Field experiments were conducted to study the effects of summer green-manuring crops and zinc (Zn) fertilization on the productivity and economics of Basmati rice. Sesbania aculeata summer green-manuring crop residue incorporation (SGMI) gave highest values of all the growth and yield attributes, grain and straw yield, viz. 3.58, 3.69 t ha?1 and 16.14, 16.25 t ha?1 of Basmati rice in 2008 and 2009. Among the Zn fertilization treatments, application of 2.0% Zn-enriched urea (ZEU) as ZnSO4 · H2O significantly influenced yield attributes and yield of Basmati rice during both years, and the increase in grain yield was 38.5 and 40.0% over absolute control (no N and no Zn) and 11.9 and 13.6% over control (only N) in both years of study. However, 2.0% ZEU (ZnO) was very close in terms of yield attributes and grain, straw yields of Basmati rice. As regards to the economics of Basmati rice, SGMI and 2.0% ZEU (ZnSO4 · H2O) Zn fertilization treatments gave the highest gross (SGMI, 85,985 and 91,582 INR ha?1; 2.0% ZEU, 89,837 and 59,851 INR ha?1) and net (SGMI, 56,997 and 61,445 INR ha?1; 2.0% ZEU, 59,851 and 64,442 INR ha?1) returns, respectively, compared with incorporation of the remaining summer green manuring residue and Zn fertilization treatments in 2008 and 2009. A significantly higher benefit:cost ratio was recorded with SGMI and 2.0% ZEU (ZnSO4 · H2O). Overall, Sesbania aculeata green manuring and 2.0% ZEU (ZnSO4 · H2O) are excellent sources of N and Zn for improved productivity of Basmati rice. 相似文献
3.
《Communications in Soil Science and Plant Analysis》2012,43(1-2):199-209
Abstract Zinc sulfate (ZnSO4 · H2O) has traditionally been the “reliable” source of zinc (Zn) fertilizer, but other sources of Zn are also available. Some are derived from industrial by‐products, varying from flue dust reacted with sulfuric acid to organic compounds derived from the paper industry. The degree of Zn mobility in Zn sources derived from these various by‐products is related to the manufacturing process, the source of complexing or chelating agents (organic sources), and the original product used as the Zn source. Many claims are made regarding the relative efficiency of traditional inorganic Zn fertilizers and complexed Zn sources. The objective of this column study was to compare the mobility of several commercial Zn fertilizer materials (organic and inorganic) that are commonly used to correct Zn deficiencies in soils. The sources included three granular inorganic Zn sources, two granular organically complexed Zn sources, and liquid ZnEDTA. Soil columns were leached five times with deionized water. Leaching events were separated by approximately 48 h. At the conclusion of the leaching phase, columns were analyzed for plant‐available Zn. Water solubility was the primary factor affecting Zn movement, not total Zn content or organic complexation of the fertilizers. The Zn sources evaluated can be separated into three groups: ZnEDTA, ZnLigno, and ZnSO4 were the most mobile Zn sources; the ZnOx55 was less mobile, but seemed mobile enough to meet crop needs; ZnOx26 and ZnSuc were relatively immobile Zn sources. 相似文献
4.
5.
《Communications in Soil Science and Plant Analysis》2012,43(7-8):1154-1167
Abstract Rice–wheat cropping system covers about 24 million hectares in China, India, Pakistan, Nepal, and Bangladesh, and zinc deficiency is widespread in rice–wheat belts of all these five countries. The current practice of applying zinc sulfate heptahydrate (ZnSO4 · 7H2O) to soil is problematic because of the poor quality of the nutrients available in the market to the farmers. Zinc (Zn)–coated urea is therefore being manufactured to guarantee a good‐quality Zn source. This article reports the results from a field study conducted to study the relative efficiency of zinc sulfate and zinc oxide (ZnO)–coated ureas in rice–wheat cropping system. The highest grain yield of rice–wheat cropping system was obtained with 2.0% coating of urea. Zinc sulfate was also a better coating material than ZnO. Partial factor productivity, agronomic efficiency, apparent recovery, and physiological efficiency of applied Zn decreased as the level of Zn coating was increased. 相似文献
6.
In India, zinc (Zn) has been recognized as the fourth most important yield-limiting nutrient after nitrogen (N), phosphorus (P) and potassium (K). Supplementing the zinc (Zn) requirement of agricultural crops through water soluble zinc sulfate ZnSO4 fertilizer is a costly management option whereas, utilization of ZnO (water insoluble and a cheaper material) as a source of Zn could be an alternative cost effective option to encourage farmers for wider adoption. In this present investigation, in order to supply the requisite amount of Zn to the plants, a protocol has been developed to coat the seeds of maize (Zea mays L.), soybean (Glycine max L.), pigeon pea (Cajanas cajan L.) and ladies finger (Abelmoschus esculentus L.) with microns scale (<3 µm) and nano-scale (<100 nm) ZnO powder at 25 mg Zn/g seed and at 50 mg Zn/g seed. Different Zn sources, ethyl alcohol, and crude pine oleoresin (POR) were used for coating of seeds. The germination test carried out with coated and uncoated seeds indicated better germination percentage (93–100%) due to ZnO coating as compared to uncoated seeds (80%). Pot culture experiment conducted with coated seeds also revealed that the crop growth with ZnO coated seeds were similar to that observed with soluble Zn treatment applied as zinc sulfate heptahydrate (ZnSO4·7H2O) (at 2.5 ppm Zn) which is evident from the periodic SPAD reading taken after 20, 25, 30 and 45 days after sowing. Application of Zn through different sources also enhanced the auxin indole-3-acetic acid (IAA) production in plant roots, which subsequently improved the overall growth. The most important advantage of seed coating with ZnO (both micron/nano-scale) is that it did not exert any osmotic potential at the time of germination of the seed, thus, the total requirement of Zn of the crop can be loaded with the seed effectively through nano-scale ZnO particle. 相似文献
7.
《Communications in Soil Science and Plant Analysis》2012,43(13-14):1905-1916
Abstract A pot experiment was conducted to investigate the effects of three soluble zinc (Zn) fertilizers on cadmium (Cd) concentrations in two genotypes of maize (Zea mays): Jidan 209 and Changdan 374. Zinc fertilizers were added to soil at four levels: 0, 80, 160, and 240 mg kg?1 soil as nitrate [Zn(NO3)2], chloride (ZnCl2), and sulfate (ZnSO4). Cadmium nitrate [Cd(NO3)2] was added to all the treatments at a uniform rate equivalent to 10 mg kg?1 soil. The biomass of maize plants was increased with the application of three zinc fertilizers, of which Zn(NO3)2 yielded more than others. Under ZnCl2 treatment, plant growth was promoted at the lower level and depressed at the higher one. All the three fertilizers decreased Cd concentration in shoots in comparison with treatments without Zn, but there were variations with different forms, especially in plants treated with Zn(NO3)2, which had the minimal value. The orders of average Cd concentration in shoots with different zinc fertilizers were ZnSO4>ZnCl2>Zn(NO3)2 for Jidan 209 and ZnCl2>ZnSO4>Zn(NO3)2 for Changdan 374, respectively (P<0.001). There was no significant difference between ZnSO4 and ZnCl2 treatments. The lowest Cd concentration in shoots was found in the 80‐mg‐kg?1 soil or 160‐mg‐kg?1 soil treatment. Cadmium concentration in roots in the presence of ZnCl2 was the lowest and under ZnSO4 the highest. The mechanism involved needs to be studied to elucidate the characteristics of complexation of Cl? and SO4 2? with Cd in plants and their influence on transfer from roots to shoots. 相似文献
8.
Panomwan Boonchuay Ismail Cakmak Benjavan Rerkasem 《Soil Science and Plant Nutrition》2013,59(2):180-188
This study evaluated how zinc (Zn) concentration of rice (Oryza sativa L.) seed may be increased and subsequent seedling growth improved by foliar Zn application. Eight foliar Zn treatments of 0.5% zinc sulfate (ZnSO4?·?7H2O) were applied to the rice plant at different growth stages. The resulting seeds were germinated to evaluate effects of seed Zn on seedling growth. Foliar Zn increased paddy Zn concentration only when applied after flowering, with larger increases when applications were repeated. The largest increases of up to ten-fold were in the husk, and smaller increases in brown rice Zn. In the first few days of germination, seedlings from seeds with 42 to 67?mg Zn?kg?1 had longer roots and coleoptiles than those from seeds with 18?mg Zn?kg?1, but this effect disappeared later. The benefit of high seed Zn in seedling growth is also indicated by a positive correlation between Zn concentration in germinating seeds and the combined roots and shoot dry weight (r?=?0.55, p?相似文献
9.
A field study conducted for two years (2006 and 2007) at the Research Farm of the Indian Agricultural Research Institute, New Delhi, India showed that zinc (Zn) fertilization increased yield attributes, grain and straw yield, enhanced Zn concentrations and its uptake and improved kernel quality before and after cooking in basmati rice ‘Pusa Sugandh 5’. A 2% Zn-coating with zinc sulfate (ZnSO4·7H2O) was found to be the best but a 2% Zn-coating with zinc oxide (ZnO) was very close to it in terms of grain and straw yield and Zn concentrations in basmati rice grain and straw under Zn stress conditions. Partial factor productivity (PFP) of applied Zn varied from 984–3,387 kg grain kg Zn?1, agronomic efficiency (AE) varied from 212–311 kg grain kg?1 Zn (applied) and physiological efficiency (PE) of Zn varied from 6,384–17,077 kg grain kg?1 Zn (absorbed). Thus, adequate Zn fertilization of basmati rice can lead to higher grain yield and Zn-denser grains with improved cooking quality in basmati rices under Zn stress soil conditions. 相似文献
10.
The present study evaluated effects of seed zinc (Zn) priming at concentrations from 0 to 25 mM ZnSO4 on seedling vigor and viability in rice (Oryza sativa L.). Zinc priming substantially increased Zn concentration in the husk, but not in brown rice. The movement of primed Zn from the husk into the inner layers of rice seed during germination was suggested by Zn concentration declining in the husk coinciding with the increase in brown rice over time (r = –0.62; p < 1%), which did not happen in unprimed seed. Zinc priming significantly enhanced seedling growth and development up to 5 mM. Germination rate, root number, and dry weight were much higher than in unprimed seed, but higher Zn concentrations (10 and 25 mM) depressed seedling vigor. Priming rice seed with 2.5 mM Zn also improved the germination rate of rice in a Zn‐deficient soil, with or without soil Zn application. The results confirm that priming rice seed with Zn can improve germination and seedling vigor and for the first time show how Zn requirement of germinating rice seed and seedlings can be met by the prime Zn accumulated in the husk. 相似文献
11.
《Journal of plant nutrition》2012,35(2):194-213
AbstractExperiments were conducted to examine whether the foliar application of zinc (Zn) could mitigate the adverse effects of heat stress on pakchoi plants. Two varieties of pakchoi (Aikangqing and Wuyueman) were foliar applied with ZnSO4·7H2O (0%, 0.02%, 0.05%, 0.10%, 0.20%, 0.40%, 0.60%, and 0.80%), and then subjected to two temperature levels (22°C/16°C, day/night; 40°C/30°C, day/night). Heat stress decreased the net photosynthetic rate (Pn) (50.65% and 62.14% for Aikangqing and Wuyueman, respectively), chlorophyll content, chlorophyll fluorescence ratio (Fv/Fm), and effective quantum yield of PSII photochemistry (ΦPSII) of the leaves. Foliar application of ZnSO4·7H2O (0.02%–0.40%) effectively alleviated the heat stress in pakchoi by enhancing shoot Zn concentration, superoxide dismutase (SOD) activity, chlorophyll content, Fv/Fm, and ΦPSII. Pn increased by 12.61%–46.19% and 45.73%–119.01% in Aikangqing and Wuyueman compared with those without Zn treatments, respectively. Fuzzy comprehensive evaluation and the extreme model showed that Aikangqing and Wuyueman treated with 0.1218%–0.1220% ZnSO4·7H2O (approximately 0.004?M Zn2+) and 0.2178%–0.2744% ZnSO4·7H2O (approximately 0.008?M Zn2+) exhibited the most heat resistance, respectively. Furthermore, Zn (0.02%–0.80% ZnSO4·7H2O) application had no significant effect on most physicochemical parameters under normal temperature, which only increased shoot Zn and SOD. The results suggest that additional Zn would be required to fully protect plant growth from heat stress. Foliar application enhanced Zn concentration in leaves, thereby maintaining the SOD activity and membrane stability and protecting photosynthesis against heat damage. 相似文献
12.
Abstract Rice is mostly transplanted under puddled low land soil conditions in India, where Zinc (Zn) deficiency is a common problem. The objective of this study was to find out the efficacy of split application of Zn on growth and yield of rice in an inceptisol. The split application of Zn as ZnSO4 · 7H2O performed better than its single basal application, while the split application of Zn-EDTA did not show any significant difference on yield and yield components of rice over its single basal application. Zn-EDTA was found to be better for growth and yield of rice among the two sources of Zn. The soil application of Zn at 1.0 kg ha?1 as Zn-EDTA (T7) recorded highest grain yield of 5.42 t ha?1, filled grain percentage of 90.2%, 1000-grain weight of 25.41 g and number of panicles m?2 of 452. The Zn content of grain and straw were found to be maximum in the treatment T7 i.e. 38.19 and 18.27 mg kg?1, respectively. Linear regression studies indicated that grain yield of rice is significantly influenced by Zn content of grain, Zn content of straw and DTPA extractable Zn content of soil at the level of 95.96, 96.74 and 95.57%, respectively. 相似文献
13.
Poor zinc (Zn) nutrition of wheat is one of the main causes of poor human health in developing countries. A field experiment with no zinc and foliar zinc application (0.5% ZnSO4.7H2O) on bread wheat (8), durum wheat (3), and triticale (4) cultivars was conducted in a randomized block design with three replications in 2 years. The experimental soil texture was loamy sand with slightly alkalinity. The grain yields of bread wheat, triticale, and durum wheat cultivars increased from 43.6 to 56.4, 46.5 to 51.6, and 49.4 to 53.5 t ha?1, respectively, with foliar application of 0.5% ZnSO4.7H2O. The highest grain yield was recorded by PBW 550 (wheat), TL 2942 (triticale), and PDW 291 (durum), which was 5.22, 4.24, and 4.56% and significantly higher over no zinc. Foliar zinc application increased zinc in bread wheat, triticale, and durum wheat cultivars grains varying from 31.0 to 63.0, 29.3 to 61.8, and 30.2 to 62.4?mg kg?1, respectively. So, agronomic biofortification is the best way which enriching the wheat grains with zinc for human consumption. 相似文献
14.
锌硼营养对苦瓜叶片碳氮代谢的影响 总被引:12,自引:5,他引:12
采用田间试验、植株生理生化测定方法,研究了锌、硼营养对苦瓜(株洲长白)叶片碳氮代谢的影响。结果表明,在锌、硼缺乏的红壤中施用硫酸锌和硼砂可提高苦瓜上位、下位叶片光合强度(PSR)、碳酸酐酶(CA)、硝酸还原酶活性(NR)、叶绿素、蔗糖、可溶性糖、淀粉、Zn、B、蛋白质和核酸含量;降低游离氨基酸含量(FAA)和RNase活性。生物统计结果表明,叶片Zn与叶绿素、PSR、CA;CA与PSR、蔗糖、可溶性糖;蛋白质与核酸、NR呈极显著正相关。而蛋白质与FAA、RNase;核酸与RNase呈极显著负相关。 相似文献
15.
施锌对小麦开花后氮、磷、钾、锌积累和运转的影响 总被引:25,自引:7,他引:25
为明确大田条件下施锌对小麦地上部器官氮、磷、钾、锌的积累量和转移量的影响,2001~2002年开展了田间试验。试验以专用强筋小麦(8901-11)和普通小麦(4185)两个冬小麦品种为材料,包括4个施锌水平(分别为施ZnSO4.7H2O.0、11.25、22.5和33.75.kg/hm2)。结果表明,各器官中Zn的含量变化在4.14~54.18.mg/kg,刚开花时及灌浆前期的含量以子粒>穗壳>叶片>茎秆,至接近成熟时则以子粒>叶片>穗壳>茎秆。每生产100.kg小麦子粒需要吸收Zn的范围在4.40~5.20.g之间。小麦成熟时吸收的Zn约为N或K2O的1/800~1/700,为P2O5的1/500~1/300。施锌后小麦各器官氮、磷、钾、锌的积累量及开花后向子粒的运转量增加,但施锌过多,这些营养元素的吸收、积累和运转反而受到抑制。4185开花前吸收氮和磷的能力较强,而8901-11开花后吸收氮和磷的能力较强;而吸收钾和锌的能力与吸收氮和磷的情况相反。8901-11氮、磷、钾、锌的积累量基本随施锌量增加而提高,以施硫酸锌22.5~33.75.kg/hm2的积累量最高;而4185以施硫酸锌11.25.kg/hm2的积累量最高。因此,在施用大量元素的基础上,普通小麦以施硫酸锌11.25.kg/hm2为宜,而强筋小麦以施硫酸锌22.5~33.75.kg/hm2为宜。 相似文献
16.
Zinc (Zn) deficiency caused by inadequate dietary intake is a global nutritional problem, so increasing Zn concentrations in crops is a challenging and high-priority research task. A field experiment was conducted to explore the effects of nitrogen (N) fertilizers on Zn absorption and translocation in winter wheat during the 2010–2011 and 2011–2012 crop seasons, in Xinzheng City, Henan Province, China. N was applied at four levels (0, 90, 180, and 270 kg N ha?1) and Zn was applied at two levels (15 and 30 kg zinc sulfate heptahydrate (ZnSO4·7H2O) ha?1]. The results indicated that reasonable N application increased grain yield, total Zn accumulations, and Zn concentrations of each plant part of winter wheat. Furthermore, appropriate N application increased Zn distribution proportions in grains and decreased Zn distribution proportions in roots, stems, leaves, and spikes, and enhanced Zn removal from roots, stems, leaves, and spikes to grains. Meanwhile, reasonable N combined with higher Zn application had a better effect on Zn absorption and Zn translocation to grain of winter wheat. The results suggested that suitable quantity of N fertilizer combined with higher Zn application is an important measure to obtain both higher grain yield and grain Zn concentration in winter wheat production. 相似文献
17.
氮锌互作对水稻产量及籽粒氮、锌含量的影响 总被引:10,自引:2,他引:8
为探明氮锌互作对水稻产量及氮、锌含量的影响,以镇稻11号为供试材料,在大田条件下研究了2个氮肥用量(N 200、300 kg/hm2)下6个施锌水平(ZnSO47H2O 0、10、25、50、100、150 kg/hm2) 对水稻产量及成熟期植株氮、锌浓度及累积量的影响。试验结果表明: 在本试验条件下,锌肥的施用对水稻产量的增加不显著,但施锌能显著提高水稻各部位的锌浓度和籽粒锌累积量,并能提高水稻籽粒的氮浓度和粗蛋白含量,且表现出随施锌量的增加籽粒的氮浓度和粗蛋白含量增加的趋势; 高施氮量有利于水稻的增产及对锌的吸收与累积。因此,氮锌配施具有增加籽粒锌富集和提高蛋白质含量的双重效益。 相似文献
18.
E. Rafique M. Mahmood-ul-Hassan K. M. Khokhar G. Nabi T. Tabassam 《Journal of plant nutrition》2013,36(2):307-316
ABSTRACT Zinc (Zn) deficiency is a global nutritional problem in crops grown in calcareous soils. However, plant analysis criteria, a good tool for interpreting crop Zn requirement, is scarcely reported in literature for onion (Allium cepa L.). In a greenhouse experiment, Zn requirement, critical concentrations in diagnostic parts and genotypic variation were assessed using four onion cultivars (‘Swat-1’, ‘Phulkara,’ ‘Sariab Red,’ and ‘Chilton-89’) grown in a Zn-deficient (AB-DTPA extractable, 0.44 Zn mg kg?1), calcareous soil of Gujranwala series (Typic Hapludalf). Five rates of Zn, ranging from 0 to 16 mg Zn kg?1 soil, were applied as zinc sulphate (ZnSO4·7H2O) along with adequate basal fertilization of nitrogen (N), phosphorus (P), potassium (K), and boron (B). Four onion seedlings were transplanted in each pot. Whole shoots of two plants and recently matured leaves of other two plants were sampled. Zinc application significantly increased dry bulb yield and maximum yield was produced with 8 mg Zn kg?1. Application of higher rates did not improve yield further. The cultivars differed significantly in Zn efficiency and cv. ‘Swat-1’ was most Zn-efficient. Fertilizer requirement for near-maximum dry bulb yield was 2.5 mg Zn kg?1. Plant tissue critical Zn concentrations were 30 mg kg?1 in young whole shoots, 25 mg kg?1 in matured leaves, 16 mg kg?1 in tops and 14 mg Zn kg?1 in bulb. Zinc content in mature bulb also appeared to be a good indicator of soil Zn availability status. 相似文献
19.
《Communications in Soil Science and Plant Analysis》2012,43(3):382-392
The effects of summer green manuring crops and zinc (Zn) fertilization on quality of basmati rice during summer rainy seasons of 2008 and 2009 (kharif, April–November) were evaluated in field experiments at the research farm of the Indian Agricultural Research Institute, New Delhi. Quality parameters of basmati rice (viz., physical, biochemical, and cooking quality parameters) increased significantly as a result of summer green manure crop residue incorporation over summer fallow treatment. Incorporation of Sesbania aculeata green manure crop residues led to significantly greater protein (8.44 percent mean of 2 years) and amylose content (25.78 percent mean of 2 years). Zinc fertilization using 2 percent Zn-enriched urea (ZEU) recorded the greatest values for these parameters and also for hulling (73.8 percent mean of 2 years) and milling (62.4 percent mean of 2 years). Zinc fertilization using 2 percent ZEU and incorporation of Sesbania aculeata green manure crop residues also recorded the greatest values for all quality parameters related to cooking quality such as length and breadth of grains before and after cooking. Soil microbiological parameters and yield showed significantly high positive correlations with quality parameters. The 2-year field study clearly demonstrated the benefits of summer green manure nitrogen (N) and Zn enrichment for improving the biochemical, physical, and cooking quality parameters of basmati rice. 相似文献
20.
《Journal of plant nutrition》2013,36(10):1859-1874
Abstract In a pot experiment, sterilized sandy soil (irrigated with Long-Ashton nutrient solution containing a half of the recommended dose of ZnSO4 · 7H2O) was used to study the effects of zinc (Zn) foliar-application, and soil biofertilization on some physiological traits of wheat (Triticum aestivum cv. Sakha 155) plant grown for 70 days in greenhouse under controlled conditions. The treatments comprised different levels of the foliar applied Zn (0, 25, 50, 100, and 200 mg L?1) which was added in the form of ZnSO4 · 7H2O, and supported by Azotobacter chroococcum (Ar) and/or Azospirillum brasilense (Am) isolates. All test attributes (minerals, photosynthesis, metabolites, and dry matter accumulation) were significantly enhanced by the moderate doses of Zn (25 and 50 mg L?1), while a contrary trend was observed in case of the higher levels (100 and 200 mg L?1). Applying the bacterial fertilizers (Ar, Am) to the experimental soil, influenced the most test characters in the direction of improving growth, photosynthesis and dry matter accumulation by the plant. This response was more evident in the case of applying Ar plus Am than Am than Ar, particularly, at the elevated levels of Zn. Zinc application at 50 mg L?1 supported by the biofertilization with Ar plus Am resulted in the highest shoot contents of nitrogen (N), magnesium (Mg), manganese (Mn), carbohydrate and total-soluble proteins. Superior values of the photosynthetic criteria (Chl a + b concentration and photosystem II activity) as well as shoot concentration of indole-3-acetic acid, and dry matter accumulation by shoots and roots were obtained by the same treatment. The highest phosphorus (P) concentration was achieved at 25 mg L?1 Zn supported by Ar plus Am. Irrespective of the bacterial inoculum, shoot contents of potassium (K) and Zn showed a positive correlation with the sprayed dose of Zn. 相似文献