Your search keyword '"fertilization efficiency"' showing total 74 results

1. 不同营养元素配比对大花序桉林木生长的影响.

Author

何 荣, 陈健波, 唐庆兰, 刘 媛, 郭东强, 王建忠, 陈升侃, 韦振道, 邓紫宇, 卢翠香, and 张 磊

Abstract

[Objective]The effects of nutrient elements N, P, K and B on growth of 17-months-old Eucalyptus cloeziana plantation were studied in order to select well treatment to tree growth and provide fertilization. [Method]In this study, the three essential nutrients N, P, K and trace element B were used as experimental factors. Orthogonal experimental design was used to construct experimental treatment including control (no fertilization). The optimal fertilization treatment was selected according to the growth changes before and after fertilization under all treatments. [Result]The results of the experiment showed that 600 d after fertilization, the order of elements effect on growth was P, B, K, N. The order of elements effect on tree height and volume was P, K, N, B. There were significant differences in DBH, height and volume growth between fertilization treatment and control and between different fertilization treatments. The growth of DBH, tree height and volume of treatments ⑧, ⑨, ④ and ⑤ were all rank 1st, 2nd, 3rd and 4th, respectively. The growth of control was the least. According to the analysis results of fertilizer efficiency and tree growth of each treatment, treatment ④ was selected as the best fertilization treatment in this experiment, which DBH, tree height and volume were 36. 4%, 11. 7% and 54. 3% higher than control, respectively. [Conclusion]Fertilization treatment ④ can be used as a reference to topdressing young E. cloeziana that application rates of total amount of available nutrients 460. 25 g / plant(N 34. 2%, P 26. 6%, K 38. 0%, B 1. 2%), releasing in two years and once a year, and the first dose accounted for 42. 9% and the second dose accounted for 57. 1%. [ABSTRACT FROM AUTHOR]

Published

2024

2. Doses de dejetos líquidos suínos afetam o crescimento e produtividade da cultura do milho.

Author

Henrique GISCH, Pedro, REDIN, Marciel, Lorensi de SOUZA, Eduardo, Maisa da SILVA, Danni, GUERRA, Divanilde, Enivar LANZANOVA, Mastrangello, and Gehlen BOHRER, Robson Evaldo

Subjects

SLURRY, CORN, ORGANIC fertilizers, PLANT growth, PLANT yields

Abstract

Copyright of Nativa is the property of Revista Nativa and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

3. THE RESPONSE OF NIGELLA SATIVA PLANTS TO DIFFERENT NATURAL AND CHEMICAL FERTILIZERS UNDER MEDITERRANEAN CONDITIONS.

Author

YAGHI, Tammam, ARSLAN, Awadis, SAEED, Hussam, and ELMOUHAMMAD, Abeer

Subjects

*BLACK cumin, *FERTILIZERS, *WATER efficiency, *SOIL fertility, *AGRICULTURE, *IRRIGATION water

Abstract

The paper studied the impact of integrated plant nutrients management strategy (IPNM) on the agricultural return during current Syrian crisis through the application of camel manure and chemical fertilizers on the black cumin quantitatively and qualitatively. The fertilization treatments were denoted as T2 [N120-P30-K30], T3 [N120-P30-K60], T4 [5 t. ha-1camel manure], and T5 (1/2 [T3 + T4]), respectively. The no-fertilizer treatment (T1) was considered as control. Soil fertility, irrigation water use efficiency (IWUE), and oil content were considered. Results have showed that organic manure(camel dung)decreased soil pH and OC/ON ratio and increased the availability of nutrients in the soil. What led the black cumin to respond by significantly increasing the following productive parameters: plant height, roots depth, number of primary and secondary branches,..etc. The treatment T5 recorded the highest IWUE values (5.2 and 6.2 kg.ha-1.mm-1) and the best oil content (33.3% and 34.2%) in the two seasons, respectively. Furthermore, the applied IPNM strategy had remarkably increased fertilization efficiency and economical feasibility (profit/total costs) in the order of T5>T4>T3>T2 compared to T1. [ABSTRACT FROM AUTHOR]

Published

2023

4. ارزيابى كاوايى كشت لغلوط شفبعبله-- سباهدانه دوشرايط كاوبره باكترى لعرى وشدو لفاديركوه ضترو$#

Author

عباس خنامانى, ءذايتاًلئه توحيدىذؤاًد, غلامرضاخواًجويىئؤاد, and جلال قنبرى

Abstract

This field experiment is arranged in a split-split plot based on a randomized complete block design replicated three times during the growing season of 2019 at Shahid Bahonar University of Kerman, Iran. Nitrogen fertilizer rates (no-application, 50%, and 100%; 0, 75, and 150 kg urea per hectare) serve as the main factor, inoculation with growth-promoting bacteria (non-inoculation and inoculation with Pantoea agglomerans) as sub factor, and different fenugreek and black cumin cropping systems (100:0, 75:25, 50:50, 25:75, and 0:100) as sub-sub factor. Biomass, yield, nitrogen use efficiency (NUE), agronomy efficiency of fertilizer (AEF), and land equivalent ratio (LER) are determined. The results show that the highest biomass and NUE of studied plants are obtained from 100% fertilization and bacteria inoculation in monoculture. The total LER is also significantly improved by fertilization (between 28-51%) and bacteria inoculation (23%), showing a higher advantageous in 25:75 and 50:50 cropping patterns with LER values of 1.732 and 1.688, respectively. In contrast, reducing 50% of fertilization under bacterial inoculation increases the AEF, especially in fenugreek monoculture. Fertilization increasing the total NUE and bacteria inoculation results in the highest NUE, particularly at increased ratios of fenugreek. Fenugreek:black cumin cropping ratio of 25:75 under 100% N fertilization and bacteria inoculation with LER ح 2 has been the best treatment combination for gaining maximum overall productivity. Fertilization with 50% N inoculated with bacteria in the same cropping pattern can be recommended when fertilizer application is restricted. The present research suggests that the integrated application of bacteria and fertilization can enhance the overall efficiency of intercropping. [ABSTRACT FROM AUTHOR]

Published

2023

5. Nutritional Balance and Genetic Diversity of Coffea canephora Genotypes.

Author

Rodrigues, Maria Juliete Lucindo, da Silva, Cleidson Alves, Braun, Heder, and Partelli, Fábio Luiz

Subjects

GENETIC variation, GENOTYPES, COFFEE, COFFEE grounds, GENETIC distance, PLANTATIONS

Abstract

Our objectives were to study characteristics of the fruit (weight, percentage of husk/grain), to determine the concentration and accumulation of nutrients in the fruits, grain and husk, and to verify the existence of genetic diversity in Coffea canephora genotypes. The experiment was conducted with 20 genotypes in a four-year-old plantation, in a randomized block design with four replications and five plants per plot. The fruits were oven-dried, depulped (husk separated from the grain) and sent to a laboratory for nutritional analysis. Macronutrients N and K were the most accumulated/exported in fruits, respectively. In addition, the different genotype control cycles influenced the accumulation of nutrients in the fruits. There was genetic diversity among the 20 C. canephora genotypes, studied for the characteristics of concentration and percentage of grain/straw nutrients in the fruit. Genotypes 2, 8 and 13 were the ones with the greatest genetic distance, consequently they are the most dissimilar when compared to the other genotypes. Genotypes 8 and 1 stand out for having a higher proportion of fruit weight in relation to grains. Therefore, they are the genotypes that need a smaller amount of fruit to produce 1000 kg of ground coffee. [ABSTRACT FROM AUTHOR]

Published

2023

6. The Delayed Effect of Low-Energy Lignite Organic Matter on the Treatment Optimization of Zea mays L. Grown for Silage.

Author

Symanowicz, Barbara, Becher, Marcin, Jaremko, Dawid, Toczko, Martyna, Toczko, Rafał, and Krasuski, Sebastian

Subjects

ORGANIC compounds, LIGNITE, SILAGE, SULFUR, PROTHROMBIN, POTASSIUM salts, CORN

Abstract

The field experiment was conducted in the central-eastern Poland. The aim of the research was to determine the effect of low-energy lignite organic matter applied to the preceding crop in the form of an organomineral fertilizer on the treatment optimization of Zea mays L. maize grown for silage. Two factors were taken into account in the research: factor I—five fertilization plots control plot—without fertilization (1), NPKMgS (2), NPKMgS + N1(3), NPKMgS + N2 (4), NPKMgS + N3 (5); factor II—three varieties of Zea mays L. Nitrogen was applied as fertilizers 3, 4 and 5 at doses of N1-20, N2-40 and N3-60 kg per hectare. In the spring each year, selected plots were pre-sown with mineral fertilizers at doses of 100 kg·N, 35 kg·P, 125 kg·K, 12 kg·Mg and 14 kg·S per hectare. Organomineral fertilizer based on low-energy lignite was applied to the preceding crop (maize grown for silage) on two plots, in 1 and 5 t·ha−1 doses. Mineral fertilizers used in research significantly reduced the content of nitrogen, phosphorus, potassium, magnesium and sulphur in the dry matter of plants. The uptake of the nutrients reached the highest values for maize treated with NPKMgS + N1, NPKMgS + N2 and NPKMgS + N3. The agronomic efficiency (AE) of nitrogen, phosphorus, potassium, magnesium and sulphur, all of which were applied in the form of the polyfoska® fertilizer, M-MAKS (NPKMgS), potassium salt and urea, reached the highest values for plots treated with NPKMgS + N1 and NPKMgS + N2. In turn, the treatment of NPKMgS and NPKMgS + N3 with nitrogen, phosphorus, potassium, magnesium and sulphur resulted in the highest values of physiological efficiency (PE). Based on the three-year research carried out with the use of polyfoska® M-MAKS (NPKMgS), potassium salt and urea in the fertilization of maize grown for silage, it is possible to recommend the optimal dose of NPKMgS + N1 mineral fertilizers (100-35-125-12-14 pre-sowing, 20 kg top dressing N) and NPKMgS + N2 (pre-sowing 100-35-125-12-14, top dressing 40 kg·N). The low-energy lignite applied to the preceding crop in doses of 1 t and 5 t at the NPKMgS + N1 and NPKMgS + N2 plots contributed to the achievement of the analyzed parameters (uptake, AE and AE) at a high level. The field experiment was conducted in the central-eastern Poland. The aim of the research was to determine the effect of low-energy lignite organic matter applied to the preceding crop in the form of an organomineral fertilizer on the treatment optimization of Zea mays L. maize grown for silage. Two factors were taken into account in the research: factor I—five fertilization plots control plot—without fertilization (1), NPKMgS (2), NPKMgS + N1(3), NPKMgS + N2 (4), NPKMgS + N3 (5); factor II—three varieties of Zea mays L. Nitrogen was applied as fertilizers 3, 4 and 5 at doses of N1-20, N2-40 and N3-60 kg per hectare. In the spring each year, selected plots were pre-sown with mineral fertilizers at doses of 100 kg·N, 35 kg·P, 125 kg·K, 12 kg·Mg and 14 kg·S per hectare. Organomineral fertilizer based on low-energy lignite was applied to the preceding crop (maize grown for silage) on two plots, in 1 and 5 t·ha−1 doses. Mineral fertilizers used in research significantly reduced the content of nitrogen, phosphorus, potassium, magnesium and sulphur in the dry matter of plants. The uptake of the nutrients reached the highest values for maize treated with NPKMgS + N1, NPKMgS + N2 and NPKMgS + N3. The agronomic efficiency (AE) of nitrogen, phosphorus, potassium, magnesium and sulphur, all of which were applied in the form of the polyfoska® fertilizer, M-MAKS (NPKMgS), potassium salt and urea, reached the highest values for plots treated with NPKMgS + N1 and NPKMgS + N2. In turn, the treatment of NPKMgS and NPKMgS + N3 with nitrogen, phosphorus, potassium, magnesium and sulphur resulted in the highest values of physiological efficiency (PE). Based on the three-year research carried out with the use of polyfoska® M-MAKS (NPKMgS), potassium salt and urea in the fertilization of maize grown for silage, it is possible to recommend the optimal dose of NPKMgS + N1 mineral fertilizers (100-35-125-12-14 pre-sowing, 20 kg top dressing N) and NPKMgS + N2 (pre-sowing 100-35-125-12-14, top dressing 40 kg·N). The low-energy lignite applied to the preceding crop in doses of 1 t and 5 t at the NPKMgS + N1 and NPKMgS + N2 plots contributed to the achievement of the analyzed parameters (uptake, AE and AE) at a high level. [ABSTRACT FROM AUTHOR]

Published

2022

7. The Use of Fertilizer Produced from Coal Combustion By-Products as a Part of Sustainable Management of Waste Materials

Author

Paluch, Łukasz, Niemiec, Marcin, Mudryk, Krzysztof, Chowaniak, Maciej, Komorowska, Monika, Wróbel, Marek, editor, Jewiarz, Marcin, editor, and Szlęk, Andrzej, editor

Published

2020

8. Effect of Climate Change and Crop-Year on the Yield and Nitrogen Fertilizer Efficiency in Winter Wheat (Triticum aestivum L.) Production

Author

Pepó, Peter, Sutton, Mark A., editor, Mason, Kate E., editor, Bleeker, Albert, editor, Hicks, W. Kevin, editor, Masso, Cargele, editor, Raghuram, N., editor, Reis, Stefan, editor, and Bekunda, Mateete, editor

Published

2020

9. Recycling of Biological Sludge for the Fertilizing of Soils Cultivated with Lolium perenne

Author

Florica Morariu, Smaranda Mâşu, Adina Horablaga, Anca Andreea Marin, Dumitru Popescu, and Gheorghe Ciobanu

Subjects

fertilization efficiency, grass harvested, metal bioaccumulation, slaughterhouse sludge recycling, Agriculture, Technology, Science

Abstract

The present study has been elaborated with the aim of justifying the high efficiency of in-situ slaughterhouse sludge recycling and its usage in Lolium perenne cultures. Stabilized slaughterhouse sludge was used to complete the high deficiency in nutrients of the poor terrains. Slaughterhouse sludge represents an excessive, final by product from a meat-processing unit in Western Romania. It contains 59.78-90.77% easily bio-degradable organic substances. Moreover, it has compounds containing nitrogen and phosphorus, total N=1.922-3.318%, total P=1107-1126mg*kg‘ 'D.M. The experimental variants have been prepared, having the following characteristics: control variants of non fertilized soils and variants of soils fertilized with slaughterhouse sludge, 50t*ha''. The experimental variants used were arranged in a completely randomized block design, with three replicates each. The efficiency of fertilization with slaughterhouse sludge was a 30-35% rise in the quantity of grass harvested vs. the quantities harvested from the control variants. The quantity of Cd and Pb has been determined from the aerial parts of the harvested plants and they were below the maximum limit admitted by the sanitary regulations in Romania. Cr didn’t bio-accumulate in plants at a detection limit. The quantity of other metals determined from the aerial parts of the plants was low: i.e.

Published

2023

10. RESPONSE OF YIELD OF SOME SORGHUM VARIETIES TO POTASSIUM FERTILIZATION.

Author

Jbr Jassim, Ahmed Qassim and Ahmad, Shatha Abdul-Hasan

Subjects

SORGHUM, POTASSIUM fertilizers, POTASSIUM sulfate, FIELD crops, POTASSIUM, AGRICULTURAL colleges, GRAIN yields

Abstract

A field experiment was carried out during the autumn season of 2020 in the experiment station of the Field Crops Department, College of Agricultural Engineering Sciences, University of Baghdad, to knowing the response of four sorghum varieties (Buhooth-70, Lilo, Inqath and Rabih) to the combinations of potassium fertilizer added to the soil and foliarspraying: K0 = without addition (control treatment), K1 = addition of the recommended potassium fertilizer (200 g K to the soil, half of it was added in the vegetative growth stage and the other half in the flag leaf stage), K2 = addition 1/3 of the fertilizer recommendation + spraying of 2 g of potassium sulfate) and K3 (addition1/3 of the fertilizer recommendation + spraying of 3 g of potassium sulfate). The results showed that the Buhooth-70 variety was significantly superior and recorded the highest means of grains number (2858.0 grain head-1), weight of 1000 grains (28.01 g), grain yield (6.40 tons ha-1) and yield efficiency (0.0867 g cm-2). Also, the results showed that the K3 treatment was significantly superior and achieved the highest means of weight of 1000 grains (27.35 g) and grain yield (5.28 tons ha-1). The interaction between sorghum varieties and potassium fertilizer treatments had a significant effect on the all studied traits exceptleaves content of potassium. [ABSTRACT FROM AUTHOR]

Published

2022

11. META-ANALYSIS OF THE RESPONSE OF ELEPHANT GRASS AND PANICUM GRASS TO NITROGEN FERTILIZATION.

Author

Tiago de Oliveira, Lázaro and Borges Deminicis, Bruno

Subjects

*CENCHRUS purpureus, *PANICUM, *FORAGE plants, *GUINEA grass, *NITROGEN, *GRASSES

Abstract

Nitrogen fertilization is an efficient practice to improve pasture productivity and quality. However, the efficiency of Nitrogen (N) application depends on favorable climatic conditions. Thus, in the present work, a metanalytic study was used to summarize and analyze data on nitrogen fertilization in forage species: elephant grass (Pennisetum purpureum) and panicum grass [Megathyrsus maximus (Syn. Panicum maximum)], in order to determine the critical levels and recommended doses of nutrients for the rational use of fertilizers in forage plants, whether in pastures or weeds. Therefore, in this study, a systematic review was used, which is a type of investigation, for which research works carried out in Brazil between 2010 and 2020 were considered, including only scientific articles and dissertations. Based on the data from these studies, the relative increments of dry matter and crude protein in relation to the control treatment and the efficiency of nitrogen use in the production of dry matter and crude protein were calculated. All data collected were submitted to analysis of variance for linear and quadratic effects on each of the variables and, in case of significance, regression analysis was performed. Nitrogen fertilization in Pennisetum purpureum and Megathyrsus maximus provides consistent increases in dry matter and crude protein production, however above 1000 kg of nitrogen ha-1 there is a compromise in the efficiency of dry matter production. With a view to reducing losses due to the lower efficiency in crude protein production, it is important to verify that above 500 kg of nitrogen, there is a drastic reduction in the efficiency of crude protein production by Pennisetum purpureum. For all nitrogen doses, there is a drastic reduction in crude protein production efficiency by Megathyrsus maximus in relation to the control. [ABSTRACT FROM AUTHOR]

Published

2022

12. Nutritional Balance and Genetic Diversity of Coffea canephora Genotypes

Author

Maria Juliete Lucindo Rodrigues, Cleidson Alves da Silva, Heder Braun, and Fábio Luiz Partelli

Subjects

nutrient export, genetic diversity, fertilization efficiency, conilon coffee, Botany, QK1-989

Abstract

Our objectives were to study characteristics of the fruit (weight, percentage of husk/grain), to determine the concentration and accumulation of nutrients in the fruits, grain and husk, and to verify the existence of genetic diversity in Coffea canephora genotypes. The experiment was conducted with 20 genotypes in a four-year-old plantation, in a randomized block design with four replications and five plants per plot. The fruits were oven-dried, depulped (husk separated from the grain) and sent to a laboratory for nutritional analysis. Macronutrients N and K were the most accumulated/exported in fruits, respectively. In addition, the different genotype control cycles influenced the accumulation of nutrients in the fruits. There was genetic diversity among the 20 C. canephora genotypes, studied for the characteristics of concentration and percentage of grain/straw nutrients in the fruit. Genotypes 2, 8 and 13 were the ones with the greatest genetic distance, consequently they are the most dissimilar when compared to the other genotypes. Genotypes 8 and 1 stand out for having a higher proportion of fruit weight in relation to grains. Therefore, they are the genotypes that need a smaller amount of fruit to produce 1000 kg of ground coffee.

Published

2023

13. Hybridspecific nutrient interactions and their role in maize yield quality.

Author

Bojtor, C., Illés, Á., Horváth, É., Nagy, J., and Marton, L. C.

Subjects

*ESSENTIAL nutrients, *GRAIN yields, *CORN, *GRAIN, *METAL analysis, *PLANTING, *MICRONUTRIENTS, CORN growth

Abstract

Different fertilization levels can be used according to the intensity of the plant production technology. The interactions among all the essential nutrients, the different ways of antagonisms and synergisms can weaken or strengthen the physiological processes of the plants, affecting significantly the efficiency of the production. Complex mineral profile of the vegetative (stalk, leaves) at V2, V4, V8, VT and R6 stages in 4 replications and generative (grain, cob -R6 stage only) plant parts of maize were determined in accredited laboratory with ICP-MS, ICP-OES microwave-assisted multielement analysis for metal components (P, K, mg, Ca, S, Zn, Fe, Cu, Mn, Ni, Mo) and Dumas method for nitrogen. Results showed that the effect of different nitrogen fertilization levels was significant on grain yield, protein, oil and moisture content. Significant differences were measured between the different maize genotypes in grain yield, protein and starch content. In the experiment all essential nutrient concentrations were measured, and the important nutrient ratios of macro- and micronutrients for the physiological development of maize were calculated. These nutrient stoichiometric ratios were evaluated according to their scale of influence in the yield formation. It can be concluded that different nitrogen fertilization levels affected significantly the essential nutrient ratios of the vegetative and generative plant parts of three maize hybrids in the growth period. Although different variables of nutrient stoichiometric ratios and yield parameters did not highly correlated, Pearson's correlations suggest that K:Mg and K:Zn ratio of stalk would be related with grain yield (R = 0.32; 0.34; 0.39 and 0.35; 0.37; 0.30, respectively) marking them as important parameters for novel nutrient stoichiometry research. Analysing the optimal nutrient ratios related to the yield quality and their interaction with the fertilization practices can give certain recommendations to the farmers to implement hybrid- and site-specific nutrient management strategies, reducing the environmental impact of the over-fertilization. [ABSTRACT FROM AUTHOR]

Published

2021

14. The Delayed Effect of Low-Energy Lignite Organic Matter on the Treatment Optimization of Zea mays L. Grown for Silage

Author

Barbara Symanowicz, Marcin Becher, Dawid Jaremko, Martyna Toczko, Rafał Toczko, and Sebastian Krasuski

Subjects

low-energy lignite (reusable organic additives), bioavailability, maize, fertilization with NPKMgS, fertilization efficiency, Agriculture (General), S1-972

Abstract

The field experiment was conducted in the central-eastern Poland. The aim of the research was to determine the effect of low-energy lignite organic matter applied to the preceding crop in the form of an organomineral fertilizer on the treatment optimization of Zea mays L. maize grown for silage. Two factors were taken into account in the research: factor I—five fertilization plots control plot—without fertilization (1), NPKMgS (2), NPKMgS + N1(3), NPKMgS + N2 (4), NPKMgS + N3 (5); factor II—three varieties of Zea mays L. Nitrogen was applied as fertilizers 3, 4 and 5 at doses of N1-20, N2-40 and N3-60 kg per hectare. In the spring each year, selected plots were pre-sown with mineral fertilizers at doses of 100 kg·N, 35 kg·P, 125 kg·K, 12 kg·Mg and 14 kg·S per hectare. Organomineral fertilizer based on low-energy lignite was applied to the preceding crop (maize grown for silage) on two plots, in 1 and 5 t·ha−1 doses. Mineral fertilizers used in research significantly reduced the content of nitrogen, phosphorus, potassium, magnesium and sulphur in the dry matter of plants. The uptake of the nutrients reached the highest values for maize treated with NPKMgS + N1, NPKMgS + N2 and NPKMgS + N3. The agronomic efficiency (AE) of nitrogen, phosphorus, potassium, magnesium and sulphur, all of which were applied in the form of the polyfoska® fertilizer, M-MAKS (NPKMgS), potassium salt and urea, reached the highest values for plots treated with NPKMgS + N1 and NPKMgS + N2. In turn, the treatment of NPKMgS and NPKMgS + N3 with nitrogen, phosphorus, potassium, magnesium and sulphur resulted in the highest values of physiological efficiency (PE). Based on the three-year research carried out with the use of polyfoska® M-MAKS (NPKMgS), potassium salt and urea in the fertilization of maize grown for silage, it is possible to recommend the optimal dose of NPKMgS + N1 mineral fertilizers (100-35-125-12-14 pre-sowing, 20 kg top dressing N) and NPKMgS + N2 (pre-sowing 100-35-125-12-14, top dressing 40 kg·N). The low-energy lignite applied to the preceding crop in doses of 1 t and 5 t at the NPKMgS + N1 and NPKMgS + N2 plots contributed to the achievement of the analyzed parameters (uptake, AE and AE) at a high level.

Published

2022

15. Enhanced of Root Nodules, Uptake NPK, and Yield of Peanut Plant (Arachis hypogaea L.) using Rhizobium and Mycorrhizae Applications.

Author

Adinurani, Praptiningsih Gamawati, Rahayu, Sri, Purbajanti, Endang Dwi, Siskawardani, Devi Dwi, Stankeviča, Karina, and Setyobudi, Roy Hendroko

Subjects

*ROOT-tubercles, *MYCORRHIZAS, *RHIZOBIUM, *ROOT formation, *PLANT yields, *PEANUTS

Abstract

Peanut plants use nitrogen sources from the atmosphere with the help of Rhizobium bacteria. Rhizobium was requiring P elements for root nodules formation. This study aims to determine the effects of the application of mycorrhizae at different levels that play an essential role in increasing P elemental uptake and rhizobia inoculants to improve N element fixation and root nodule formation. Rhizobia inoculant applications were allotted to main plots and levels of mycorrhizae to the subplots under each main plot. Three types of rhizobia applications viz., soaking (A1), spraying (A2), soaking and spraying (A3) and four levels of mycorrhizae doses viz., 0 g plant-1 (M0), 10 g plant-1 (M1), 15 g plant-1 (M2), 20 g plant-1 (M3). The results indicated that the application of Rhizobium at various doses of mycorrhizae together had a significant effect on plant height 70 d (A2M1 = 53.96 cm), leaf number 70 d (A1M3 = 42.75), leaf N content (A3M3 = 5.36 g 100 g-1), leaf P content (A3M3 = 0.418 g 100 g-1), leaf K content (A3M3 = 0.273 g 100 g-1), number of root nodules (A3M0 = 120), and weight of fresh pods plant-1 (A1M3 = 33.67 g). That application can enhance root nodules and had increased NPK uptake. [ABSTRACT FROM AUTHOR]

Published

2021

16. Yield and nitrogen balance in corn grown under no-tillage system.

Author

de S. Silva, Helton, de Souza, Adailson P., de Carvalho, Mary A. B., da Silva, Valéria B., da S. Barbosa, Ewerton, and dos Santos, Michelly F.

Subjects

CORN farming, HYBRID corn, NITROGEN, BIOMASS production, PLANT cells & tissues

Abstract

Copyright of Revista Brasileira de Engenharia Agricola e Ambiental - Agriambi is the property of Revista Brasileira de Engenharia Agricola e Ambiental and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2020

17. تأثير طريقة إضافة المستخلص العضوي ومستوى NPK في بعض صفات نمو وإنتاج محصول الباقلاء Vicia faba L.

Author

محمد عبيد سلوم

Abstract

Copyright of Diyala Agricultural Sciences Journal is the property of Republic of Iraq Ministry of Higher Education & Scientific Research (MOHESR) and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2020

18. Mineral nitrogen fertilization effects on lettuce crop yield and nitrogen leaching.

Author

Sylvestre, Thiago de Barros, Braos, Lucas Boscov, Batistella Filho, Felipe, Cruz, Mara Cristina Pessôa da, and Ferreira, Manoel Evaristo

Subjects

*CROP yields, *LETTUCE, *SOIL leaching, *FERTILIZERS, *AMMONIUM nitrate, *NONLINEAR regression

Abstract

• Mineral N fertilization required to reach 90% of the lettuce maximum yield is smaller than the official recommendation. • The maximum yield and nitrate accumulation of lettuce is determined mainly by the cropping season, rather than the N fertilization dose. • The current recommended dose of N fertilizer is up to 120 kg N ha-1, and may lead to high N leaching. The low efficiency of N fertilization in soils used to grow vegetables and the consequent need to add high levels of the nutrient are the major cause of nitrate contamination of groundwater and freshwater, which calls for practices to increase N fertilization efficiency in these crops. Two experiments were carried out in Jaboticabal, Brazil, to evaluate the effects of topdressing N fertilization on crisphead lettuce (Lactuca sativa) yield, nitrate accumulation in plant shoots, and soil nitrogen leaching in two growing seasons, summer and winter. Both experiments were designed as randomized blocks with seven treatments and five replications (35 plots). The treatments were seven different rates of topdressing N. The rates of N application were 0, 30, 60, 90, 120, 150, and 180 kg N ha -1 in the form of urea, applied 8 (20%), 16 (40%), and 24 (40%) days after transplanting. Lettuce was harvested 34 and 42 d after transplanting in the summer and winter, respectively. Plant nitrate concentrations were determined in dry matter. After the harvest, soil samples were collected at the 0-20, 20-40, and 40-60 cm layers to quantify nitrogen in the forms of ammonium and nitrate. The data were submitted to analysis of variance and nonlinear regression analysis. Better use of topdressing nitrogen fertilization for lettuce growth was observed at rates lower than 60 kg N ha -1. Rates of N up to 180 kg N ha -1 did not elevate lettuce nitrate concentrations over the levels allowed for consumption but increased the amount of nitrogen lost through leaching. Decreasing N rates resulted in a similar yield and lower nitrogen leaching, improving both the environmental and economic aspects. [ABSTRACT FROM AUTHOR]

Published

2019

19. Pemanfaatan Zeolit dan Dolomit sebagai Pembenah untuk Meningkatkan Efisiensi Pemupukan pada Lahan Sawah

Author

Ishak Juarsah

Subjects

Dolomit, Efisiensi Pemupukan, Zeolit, Dolomite, Fertilization Efficiency, Agriculture (General), S1-972

Abstract

Salah satu upaya alternatif untuk meningkatkan kualitas lahan sawah yang telah terdegradasi adalah mengaplikasikan zeolit dan dolomit yang dikombinasi dengan pengelolaan bahan organik serta sistem pemupukan berimbang yang spesifik lokasi berdasarkan uji tanah dan kebutuhan tanaman. Pemanfaatan pembenah tanah untuk meningkatkan efisiensi pemupukan pada lahan sawah perlu dilakukan, sebab kegiatan intensifikasi dan estensifikasi pertanian dari program Bimas dan Inmas yang kurang mengindahkan kaidah pemupukan berimbang telah mengakibatkan semakin merosotnya kualitas lahan sawah, sehingga terjadi fenomena levelling off. Penelitian dilakukan di Lampung Tengah dengan tujuan 1) mengetahui tingkat efisiensi pemupukan di tingkat petani sebagai dampak dari penggunaan zeolit dan dolomit, : (2) mengetahui pengaruh pemberian zeolit dan dolomit terhadap perbaikan sifat-sifat tanah dan produktivitas lahan. Metode yang digunakan dalam penelitian ini adalah metode survei, yakni pengumpulan data dilakukan melalui wawancara dengan menggunakan kuisioner terstruktur guna mengungkap karakteristik petani, identifikasi, dan prospek zeolit dan dolomit di masa depan. Hasil penelitian diperoleh bahwa jenis zeolit dan dolomit yang dikenal dan digunakan adalah: Zeolit Agro 2000, ZP.30 (Zeolit yang diperkaya hara P) dan dolomit. Penggunaan zeolit dan dolomit bermanfaat untuk meningkatkan produksi tanaman padi sekitar 10-30%. One of alternative efforts to increase rice field soils quality which have degradated is through applying zeolit and dolomite combined with organic matter management along with spesific location balanced fertilizer system based on soil testing and nutrients need for the crop. Study of soil conditioner utilization for increasing fertilizer efficiency on paddy soils must be done, because agriculture intensive and extensive activity of Bimas and Inmas program did not considered the principles of balanced fertilizer which consequences the decreasing of paddy soils quality, finally lead to the occurrence a levelling off phenomenon. The research had been conducted in Centre Lampung district with the objectives, (1) to know fertilizer efficiency at the farmer level as the impact of zeolit and dolomite utilizing. (2) to know the efect of the soil physic and chemical and land productivity. The research method used was survey methods, its mean that data collected pass through interview with the structure questioner to know farmer’s characteristics, identification, and soils conditioner development prospect in the future. The results of this research found that, the kind of zeolit and dolomite which had been known and used were Zeolit Agro 2000, ZP.30 (enriched zeolit with P nutrient) and dolomite. Zeolit and dolomite utilization in both districts had benefit to increase rice crop production more or less 10-30%.

Published

2016

20. In-Soil Application of NP Mineral Fertilizer as a Method of Improving Nitrogen Yielding Efficiency

Author

Piotr Szulc, Przemysław Barłóg, Katarzyna Ambroży-Deręgowska, Iwona Mejza, and Joanna Kobus-Cisowska

Subjects

maize, nitrogen, application depth, fertilization efficiency, Agriculture

Abstract

This study presents the results of a four-year field experiment assessing the effectiveness of phosphorus application in maize cultivation according to the depth of two-component fertilizer (NP) placement in the soil layer, type of nitrogen fertilizer and date of application. Nitrogen utilization from mineral fertilizer was low—on average, 37.1% during the four years of research. The nitrogen metabolism index, measuring the agricultural and physiological efficiency of nitrogen use, confirmed the significant impact of NP fertilizer placement at 10 and 5 cm as optimal in maize fertilization. The use of nitrogen in maize cultivation before sowing, compared to the application of this component at the phase of 5-6 leaves BBCH 15/16 stage (stage of leaf development with five–six leaves unfolded), significantly increased the agricultural and physiological effectiveness of nitrogen applied in mineral fertilizer. Ammonium nitrate application before sowing the maize, compared to top dressing at the BBCH 15/16 stage, significantly increased nitrogen uptake and utilization from mineral fertilizer. Date of urea fertilizer application to the soil did not have a significant impact on these indicators in maize cultivation.

Published

2020

21. Efficiency of Nitrogen Fertilization of Winter Wheat Depending on Sulfur Fertilization

Author

Monika Tabak, Andrzej Lepiarczyk, Barbara Filipek-Mazur, and Aneta Lisowska

Subjects

ammonium nitrate, ammonium sulfate, fertilization efficiency, cereals, Agriculture

Abstract

Optimization of fertilization enables to obtain a yield of high quality and quantity, brings economic profits, and reduces environmental threats. The aim of the three-year field experiment was to determine the efficiency of fertilization with a new fertilizer available on the Polish market and containing nitrogen (N) and sulfur (S) in proportions designed for cereals cultivation (30% N and 6% S as ammonium nitrate and ammonium sulfate). Other treatments included no fertilization; fertilization with ammonium nitrate (34% N); fertilization with standard nitrogen and sulfur fertilizer with N supplementation with ammonium nitrate. Nitrogen doses were 150, 200, and 250 kg N ha−1. Sulfur was applied in doses of 30, 40, and 50 kg S ha−1. A beneficial effect of using fertilizer containing N and S in proportions designed for cereals cultivation was observed. The highest mean optimal nitrogen dose and maximum winter wheat yield were recorded for the new fertilizer (217 kg N ha−1 and 8251 kg ha−1, respectively). Sulfur supplementation with the new fertilizer significantly increased apparent nitrogen recovery (mean values 48.9%, 44.6%, and 40.6% for doses 150, 200, and 250 kg N ha−1, respectively), agronomic efficiency (11.1 and 8.6 kg kg−1 N for doses 200 and 250 kg N ha−1, respectively), and physiological efficiency (24.7 kg kg−1 N for dose 200 kg N ha−1).

Published

2020

22. ASSESSMENT OF PRODUCTIVE AND ENVIRONMENTAL EFFICIENCY OF SLOW-RELEASE FERTILIZERS IN INTEGRATED PRODUCTION OF NAPA CABBAGE DEPENDING ON APPLICATION METHOD.

Author

NIEMIEC, Marcin, TABAK, Monika, PALUCH, Łukasz, and KOMOROWSKA, Monika

Subjects

*FERTILIZER application, *ORGANIC fertilizers, *AGRICULTURAL productivity, *CHINESE cabbage, *SUSTAINABLE agriculture

Abstract

The study aimed to assess the suitability of slow-release fertilizers in cultivation of napa cabbage in the integrated production system. The objective was realized on the basis of a strict field experiment set up on soil with granulometric composition of light loam. The dose of fertilizer was the first experimental factor, and the fertilizer application was the second factor. The slow-acting fertilizer was applied under each plant during planting of seedlings and in the second variant. The fertilizer was applied in the row, about 5 cm under the seedling root level. On the basis of the results obtained in the experiments, the indices showing nitrogen fertilization efficiency were calculated Fertilization significantly modified the quantity of obtained yield. In the control, without mineral fertilization, the crop yield was 23.32 Mg ha-1. The largest yield was 52.27 Mg ha-1. Larger yields and more advantageous productive and environmental efficiency were obtained in objects with row application of fertilizer. The most advantageous agronomic efficiency and nitrogen recovery efficiency were obtained in the combination of 400 kg ha-1 of slow-acting fertilizer with traditional supplementary PK fertilizers in the case of point application of fertilizers. In the case of row fertilizer application, it is possible to use 50% more of the fertilizer dose without compromising the quality of the crop. Higher doses of free-acting fertilizers increased the standard deviation of the mass of cabbage, which is not desirable for production. The results show that under conditions of low mineral content in the soil, the slow-acting fertilizers can be used at a low level. [ABSTRACT FROM AUTHOR]

Published

2017

23. Response characteristics and efficiency of variable rate fertilization based on spectral reflectance.

Author

Man Chen, Zhenjie Yang, Xiaochan Wang, Yinyan Shi, and Yu Zhang

Subjects

*FERTILIZATION (Biology), *SPECTRAL reflectance, *WINTER wheat, *PLANT nutrition, *AGRICULTURAL productivity

Abstract

The key technical problem of variable rate fertilizer system based on spectrum information was precise variable fertilization in certain area according to the acquired spectrum information. Hysteretic fertilizing is a critical problem in most of current fertilizer equipment. Hysteresis model was built and analyzed in this study to improve the system. Fertilizing tests were conducted on different wheat breeds and the results were analyzed. The tests showed that variable rate fertilizer had obvious hysteresis phenomenon with the maximum lag distance of 3.82 m, the minimum lag distance of 1.73 m and average of 3.06 m. Hysteresis phenomenon of the variable rate fertilizer system was obviously decreased when implanting a correction time of 2.04 s with the maximum lag distance of 0.61 m. Variable effects varied by different wheat breeds. Variable rate fertilizer had an advantage of improving spatial differences of Yangmai-23, and the spatial variability of which decreased by 14.23%. In the small test area, the amount of fertilizer in Zhenmai-168 decreased by 2.84 kg, while the amount of which in Yangmai-23 increased by 3.83 kg. Yield of Zhenmai-168 in small area was lower than that in traditional pattern, but the condition of Yangmai-23 was on the contrary. Valuable information for increasing performance of fertilization in variable rate fertilizer system was provided in this paper. [ABSTRACT FROM AUTHOR]

Published

2018

24. Estudo metanalítico da resposta de gramíneas perenes de verão à adubação nitrogenada.

Author

Bernardi, A., Silva, A. W. L., and Baretta, D.

Abstract

Copyright of Arquivo Brasileiro de Medicina Veterinaria e Zootecnia is the property of Universidade Federal de Minas Gerais, Escola de Veterinaria and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2018

25. Investigation of potassium magnesium phosphate for wastewater recovering towards sustainable cities.

Author

Wang, Guoqiang, Shi, Yahui, Zhang, Junhui, Qu, Dan, and Bai, Xueting

Subjects

MAGNESIUM phosphate, SUSTAINABLE urban development, POTASSIUM phosphates, SEWAGE, POTASH mining, PHOSPHATE fertilizers

Abstract

• Recovering nutrients from wastewater contributes to sustainable city development. • MPP precipitation can simultaneously recover P and K from wastewater. • A relatively low MPP dosage is beneficial for ryegrass growth in laterite. • MPP can advance the germination time and chlorophyll contents of ryegrass. • Soil nutrient loss using MPP is clearly lower than those using MKP. Phosphorus (P) and potassium (K) are the two main nutrients of plants. It is of great significance to recover P and K from wastewater, which can reduce phosphate and potash ore mining and ensure secure fertilizer supply for the sustainable development of cities. The potassium magnesium phosphate (MgKPO 4 ·6H 2 O; MPP) is recovered from wastewater. The current work systematically assessed the fertilizer efficiency of MPP by investigating its effect on seed germination, root development and growth of ryegrass. The experimental results showed that MPP promoted the growth of ryegrass at a relatively lower dosage (0.3 g MPP/pot). Compared with the commercial fertilizer of KH 2 PO 4 (MKP), MPP shortened the germination time of ryegrass and increased the content of chlorophyll because it also contained magnesium. The loss rate of P in MPP was 12.66% lower than that in the MKP. When MPP was used, the soil's acidity was improved with the pH value of 6.75. Indeed, MPP was an effective fertilizer that could promote the growth of ryegrass, reduce the loss of nutrients and slightly improve the soil acidity. Therefore, it is of great significance to develop the crystallization of MPP for recycling P and K from wastewater, which favors the sustainable development of cities. [ABSTRACT FROM AUTHOR]

Published

2023

26. Soil and leaf phosphorus thresholds for modern potato production systems in tropical Oxisols.

Author

Soratto, Rogério P., Sandaña, Patricio, Fernandes, Adalton M., Calles, Tassiane S., Yagi, Renato, Souza, Emerson F.C., Job, André L.G., and Martins, Jéssyca D.L.

Subjects

*POTATOES, *OXISOLS, *FACTORIAL experiment designs, *PHOSPHORUS in soils, *TROPICAL conditions, *TUBERS

Abstract

Precise diagnosis and prognosis of phosphorus (P) nutrition are essentials to improve P use efficiency and sustainability in potato cropping systems. Here, variable potato crop responses of 13 field experiments (2011–2022) were assessed to determine critical soil P-resin (SP resin) and potato leaf P (LP) concentrations to achieve maximum tuber yield in tropical Oxisols. The study comprised four experiments with the factorial design of potato cultivars in response to P fertilization rates and nine experiments with P fertilization rates as fixed effects. Relationships between initial SP resin test, LP measured at the third or fourth expanded leaf stage (i.e., 29–37 days after emergence, DAE), and relative total fresh tuber yield (RY) (yield of control/yield at highest P rate) were analyzed using linear-plateau, Mitscherlich, and quadratic-plateau regression models. A wide range of total fresh tuber yield (3.2–59 Mg ha-1) and LP (1.3–5.7 g P kg-1) were observed across experiments. The LP values in control plots was positively related with initial SP resin , reaching a maximum LP of 3.8 g P kg-1 at an initial SP resin of 80 mg P dm-3 (averaged across models). The relationship between RY and initial SP resin was significant in the three regression models (p < 0.05; R 2 = 0.71–0.74). Maximum tuber yield was reached with the SP resin value of 93 mg P dm-3 (averaged across models). Across experiments and P fertilization rates, relationships between RY and LP were significantly described in the three regression models (p < 0.05; R 2 = 0.55–0.67). The critical LP of 4.5 g P kg-1, obtained from the average across models, is proposed as the optimum indicator of potato P nutritional status to achieve maximum tuber yields in tropical Oxisols. These are the first critical P thresholds on a soil and environmental-specific conditions base available for tropical conditions in Brazil, timely informative in terms of optimization of P management to maximize tuber yield and P use efficiency, and minimize the risk of environmental P contamination. • Data from 13 experiments were used to assess potato crop response to P fertilization. • A wide range of tuber yield (3.2–59 Mg ha-1) and leaf P concentration (1.3–5.7 g P kg-1) were observed across experiments. • No further positive yield response was observed when initial soil P-resin was above the critical threshold of 93 mg P dm-3. • Leaf concentration of 4.5 g P kg-1 is proposed as indicator of optimum P nutritional status for potatoes. [ABSTRACT FROM AUTHOR]

Published

2023

27. Characterization of phosphate fertilizers recycled from biogas digestates and their influenceon plant-soil fertility indicators

Author

Bach, Inga-Mareike and Bach, Inga-Mareike

Abstract

Phosphor (P) supply to plants is a key production factor for quantity and quality of food in agriculture. P consumption in modern agriculture has increased with raising world population. Mineral P fertilizer derived from Phosphate Rock (PR) mines is a limited resource on earth and large amounts of P used in agriculture are diluted by distribution into the environment, causing unwanted environmental side effects. Future oriented use of P therefore has to be based on technologies for P-recycling from the main anthropogenic product streams. In this thesis, P recycling products from a pilot plant were investigated for their biological efficien-cy as fertilizer in comparison to a conventional mineral fertilizer triple superphosphate (TSP). Investigations were part of two research projects (BioEcosim & GOBi) that had the goal to develop scalable technology for a sustainable P recycling in agriculture. Inputs into the pilot plant were unprocessed pig manure, and on the other hand a biogas co-digestate from cow manure and maize. Outputs were salt precipitates (P-Salt) from the separated liquid fractions with high P content, and solid fractions dried by pyrolysis, air-drying or steam-drying with moderate P content and high organic carbon. The objective of the work described here was the biological and agronomical investigation of the recycled fertilizer fractions for their potential to substitute a mineral fertilizer. In a first step, the obtained fractions were chemically characterized for basic characteristics. Based on the P content of the recycled fertilizers, greenhouse pot experiments were set up to compare equivalent P concentrations of single doses and combinations, in different crops and soils, with TSP and an unfertilized control as reference. Fertilizers were applied once before the beginning of the vegetation phase at recommended field rates. Variables investigated were above ground plant biomass production, concentration, and content of P in shoots, and plant-av, Die Versorgung von Pflanzen mit Phosphor (P) ist ein wesentlicher Produktionsfaktor für die Quantität und Qualität von Nahrungsmitteln in der Landwirtschaft. Der P-Verbrauch in der modernen Landwirtschaft hat mit steigender Weltbevölkerung zugenommen. Mineralischer P-Dünger aus natürlich vorkommenden Phosphat-Erzen (engl. Phosphate Rock, PR) ist eine global be-grenzte Ressource und große Mengen des in der Landwirtschaft verwendeten P werden in die Umwelt ausverdünnt, was zu unerwünschten Nebenwirkungen in der Umwelt führt. Eine zu-kunftsorientierte Verwendung von P muss daher auf Technologien zum P-Recycling aus den wichtigsten anthropogenen Produktströmen basieren. In dieser Arbeit wurden P-Recyclingprodukte aus einer Pilotanlage auf ihre biologische Effizienz als Dünger im Vergleich zu einem konventionellen Mineraldünger Triple superphosphat (TSP) untersucht. Die Untersuchungen waren Teil zweier Forschungsprojekte (BioEcosim & GOBi), die zum Ziel hatten, skalierbare Technologien für ein nachhaltiges P-Recycling in der Landwirtschaft zu entwickeln. Inputs in die Pilotanlage waren einerseits unverarbeiteter Schweinedung, und zum anderen ein Biogas-Gärrest aus Kuhdung und Mais. Outputs waren Salz-Präzipitate (P-Salz) aus den abgetrennten flüssigen Fraktionen mit hohem P-Gehalt, sowie mittels Pyrolyse, Lufttrocknung oder Dampftrocknung getrocknete, feste Fraktionen mit mäßigem P-Gehalt und hohem organischem Kohlenstoff. Ziel der hier beschriebenen Arbeiten war die biologische und agronomische Untersuchung der recycelten Düngemittelfraktionen auf deren Potential, als Ersatz eines Mineraldüngers dienen zu können. In einem ersten Schritt wurden die erhaltenen Fraktionen chemisch auf grundlegende Kenngrößen charakterisiert. Basierend auf den Ergebnissen des P-Gehalts der recycelten Düngemittel wurden Topfexperimente im Gewächshaus durchgeführt, um äquivalente P-Konzentrationen von Einzeldosen und Kombinationen in verschiedenen Kulturen und Böden mit TSP und einer ungedüng

Published

2022

28. SISTEMA INTEGRAL DE NUTRICIÓN CON HMA, ABONOS VERDES Y FERTILIZANTES MINERALES EN Manihot esculenta Crantz.

Author

Joao, José P., Espinosa, Ramón Rivera, Alonso, Gloria Martín, Nelson, Manuel Riera, and González, Jaime Simó

Abstract

In recent years the positive results of mycorrhizal inoculant application in different crops and their integration with the mineral fertilization schemes have increased. In order to establish an integrated plant nutrition system for the cultivation of Manihot esculenta Crantz, including also green manure and low doses of mineral fertilizer, two field experiments were carried out on Ferralitic Red Lixiviated Soils. In the first one, five levels of mineral fertilizer were studied, in the presence or not of the inoculation with the arbuscular mycorrhizal fungus Glomus cubense/ INCAM-4, in a random block design with factorial arrangement and four replicates. In the second, Canavalia ensiformis was introduced as a green manure, preceded and intercalated, and 12 treatments were studied, consisting of mycorrhizal inoculation or not of canavalia and cassava in the presence of a fixed fertilization fund of NPK corresponding to 25 % of fertilization recommended for cassava. Treatments with four doses of fertilizers (0, 25, 50 and 100 % NPK) were also included in a randomized block design with four replicates. The inoculation decreased the fertilizer quantities by 33 % in order to obtain high yields and increased its agronomic efficiency by 67 %, with the crop showing a good mycorrhizal function. The inclusion of the previous and intercalated inoculated canavalia decreased in another 33 % plus the amounts of mineral fertilizer, with a positive response to the intercalation in the yield (P <0,05 %) and doubling the agronomic efficiency of fertilizers. [ABSTRACT FROM AUTHOR]

Published

2017

29. Recycling of Biological Sludge for the Fertilizing of Soils Cultivated with Lolium perenne.

Author

Morariu, Florica, Mâşu2, Smaranda, Horablaga, Adina, Marin, Anca Andreea, Popescu, Dumitru, and Ciobanu, Gheorghe

Subjects

*SOILS, *LOLIUM perenne

Abstract

The present study has been elaborated with the aim of justifying the high efficiency of in-situ slaughterhouse sludge recycling and its usage in Lolium perenne cultures. Stabilized slaughterhouse sludge was used to complete the high deficiency in nutrients of the poor terrains. Slaughterhouse sludge represents an excessive, final by product from a meat-processing unit in Western Romania. It contains 59.78-90.77% easily bio-degradable organic substances. Moreover, it has compounds containing nitrogen and phosphorus, total N=1.922-3.318%, total P=1107-1126mg•kg-1D.M. The experimental variants have been prepared, having the following characteristics: control variants of nonfertilized soils and variants of soils fertilized with slaughterhouse sludge, 50t•ha-1. The experimental variants used were arranged in a completely randomized block design, with three replicates each. The efficiency of fertilization with slaughterhouse sludge was a 30-35% rise in the quantity of grass harvested vs. the quantities harvested from the control variants. The quantity of Cd and Pb has been determined from the aerial parts of the harvested plants and they were below the maximum limit admitted by the sanitary regulations in Romania. Cr didn't bio-accumulate in plants at a detection limit. The quantity of other metals determined from the aerial parts of the plants was low: i.e. <10mg•kg-1D.M. for Cu or Ni <50mg•kg-1D.M. for Zn, <150mg•kg-1D.M.for Mn. Green feed harvested from fields fertilized with slaughterhouse sludge can be part of animal nutrition. [ABSTRACT FROM AUTHOR]

Published

2017

30. Yield and nitrogen balance in corn grown under no-tillage system

Author

Mary Anne Barbosa de Carvalho, Valéria Borges da Silva, Adailson Pereira de Souza, Michelly F. dos Santos, Helton de S. Silva, and Ewerton da Silva Barbosa

Subjects

0106 biological sciences, Nitrogen balance, Environmental Engineering, Agriculture (General), Randomized block design, Biomass, chemistry.chemical_element, engineering.material, 01 natural sciences, Zea mays, S1-972, nitrogen in the soil, Animal science, Nutrient, Human fertilization, fertilization efficiency, Chemistry, food and beverages, 04 agricultural and veterinary sciences, nitrogen fertilization, Nitrogen, Tillage, 040103 agronomy & agriculture, engineering, 0401 agriculture, forestry, and fisheries, Fertilizer, Agronomy and Crop Science, 010606 plant biology & botany

Abstract

The corn crop is highly responsive to nitrogen fertilization; however, the application of high doses generally causes a reduction in the use efficiency of fertilizer. In this sense, this study aimed to determine the yield and nitrogen balance in corn grown under the no-tillage system. The experiment consisted of the application of four nitrogen doses (0, 30; 70 and 95 kg ha-1). In all plots with the AG 1051 hybrid corn, 80 and 56 kg ha-1 of P2O5 and K2O were applied, respectively. The experiment was arranged in a randomized block design with five replications. The grain yield had a linear increasing behavior according to the nitrogen doses, which reached 5,684.79 kg ha-1. The fertilization efficiency and the N extraction increased linearly with the increase of the nitrogen doses, obtaining with the highest dose the extraction of 114.93 kg ha-1 of N and a fertilization efficiency of 65%. The soil N stock of 4,489 kg ha-1 provides corn plants with 52.81 kg ha-1 of this nutrient. Corn adjusts the biomass production according to the availability of nitrogen, with no effect of N doses on the nutrient content in plant tissues.

Published

2020

31. Effectiveness of Commercial Biofertilizer on Fertilization Efficiency in Ultisols for the Growth and Yield of Caisim

Author

Ea Kosman Anwar and Subowo Gitosuwondo

Subjects

Effectiveness of Biofertilizer, fertilization efficiency, Ultisols, Science (General), Q1-390

Abstract

The effectiveness of Commercial Biofertilizer 1 (CBF1) on the growth and yield of caisim (Brassica sp.) was examined in the greenhouse of Indonesian Soil Research Institute in Bogor. The completely randomized design (CRD) was performed to examine the effects of Commercial Biofertilizer 1 (CBF1) on Fertilization Efficiency in Ultisols. The treatments were consists of 10 combinations between NPK-recommendation (NPK-rec) and CBF1, with six replications. The experiment was conducted from August to October 2009. The result showed that CBF I increased the yields of caisim when combining by fertilizer NPK-rec, while giving CBF1 alone did not significantly increases yields compare to control (without fertilizer). Giving ¾ dosage NPK-rec. + CBF1 had RAE value 163%, indicating the effectiveness of CBF1 was optimum, that it reduce the need of NPK fertilizer by 25% by providing the increasing of yield 63% compared to NPK rec. The higher the level of NPK-rec. the lower the efficiency of fertilization. CBF1 had given effectives on yields when it was combined by inorganic fertilizer. However, when it was not combined with inorganic fertilizers, it would harm plants and decreased the soil nutrients. The influence of biofertilizer in plants were predictable unpredictable, while the influent of inorganic fertilizers were predictable.

Published

2011

32. FOLIAR APPLICATION OF SELENIUM, ZINC AND COPPER IN ALFALFA (Medicago sativa L.) BIOFORTIFICATION

Author

Klara PETKOVIĆ, Maja MANOJLOVIĆ, Peder LOMBNÆS, Ranko ČABILOVSKI, Đorđe KRSTIĆ, and Zdenko LONČARIĆ

Subjects

0106 biological sciences, animal feed, fertilization, fertilization efficiency, microelements, Animal feed, Biofortification, food and beverages, chemistry.chemical_element, 04 agricultural and veterinary sciences, Zinc, 01 natural sciences, Animal science, Nutrient, Human fertilization, chemistry, Animal feed,fertilization,fertilization efficiency,microelements, 040103 agronomy & agriculture, 0401 agriculture, forestry, and fisheries, Animal nutrition, Medicago sativa, Agronomy and Crop Science, Selenium, 010606 plant biology & botany

Abstract

Biofortification of forage crops has an important role in improving the quality of plants used for animal nutrition. The field experiments were conducted in three consecutive years in Subotica, Serbia, in order to investigate the effect of Se, Zn, and Cu foliar fertilization on the yield, Se and Zn contents and nutrient efficiency, as well as on other mineral compositions of alfalfa hay. The treatments were as follows: i) control without fertilization, ii) 5 g Se ha-1, iii) 10 g Se ha- 1, iv) 0.5 kg Zn ha-1, v) 1 kg Zn ha-1, vi) the combination of these two elements (0.5 kg Zn ha- 1 and Se 10 g ha-1) and vii) 2% Cu solution. The application of Se, Zn, and Cu had no effect on dry yield or on crude protein, P, K, Ca, Mg, Fe, Mn, Mo, and Co contents in alfalfa hay. However, Se, Zn, and Cu fertilization significantly increased the contents of Se, Zn, and Cu in alfalfa hay. The results showed that Se and Zn contents in plant biomass were significantly correlated with the applied doses of Se (r=0.99) and Zn (r=0.99). The production years of alfalfa and the weather conditions proved to be significant factors in fertilization efficiency.

Published

2019

33. Evolution of female multiple mating: A quantitative model of the 'sexually selected sperm' hypothesis.

Author

Bocedi, Greta and Reid, Jane M.

Subjects

*SPERM competition, *FERTILIZATION (Biology), *BIOLOGICAL evolution, *ANIMAL ecology, *ANIMAL sexual behavior, *COEVOLUTION

Abstract

Explaining the evolution and maintenance of polyandry remains a key challenge in evolutionary ecology. One appealing explanation is the sexually selected sperm (SSS) hypothesis, which proposes that polyandry evolves due to indirect selection stemming from positive genetic covariance with male fertilization efficiency, and hence with a male's success in postcopulatory competition for paternity. However, the SSS hypothesis relies on verbal analogy with 'sexy-son' models explaining coevolution of female preferences for male displays, and explicit models that validate the basic SSS principle are surprisingly lacking. We developed analogous genetically explicit individual-based models describing the SSS and 'sexy-son' processes. We show that the analogy between the two is only partly valid, such that the genetic correlation arising between polyandry and fertilization efficiency is generally smaller than that arising between preference and display, resulting in less reliable coevolution. Importantly, indirect selection was too weak to cause polyandry to evolve in the presence of negative direct selection. Negatively biased mutations on fertilization efficiency did not generally rescue runaway evolution of polyandry unless realized fertilization was highly skewed toward a single male, and coevolution was even weaker given random mating order effects on fertilization. Our models suggest that the SSS process is, on its own, unlikely to generally explain the evolution of polyandry. [ABSTRACT FROM AUTHOR]

Published

2015

34. In-Soil Application of NP Mineral Fertilizer as a Method of Improving Nitrogen Yielding Efficiency

Author

Joanna Kobus-Cisowska, Piotr Szulc, Iwona Mejza, Przemysław Barłóg, and Katarzyna Ambroży-Deręgowska

Subjects

business.industry, Field experiment, Ammonium nitrate, Phosphorus, lcsh:S, Sowing, chemistry.chemical_element, engineering.material, maize, Nitrogen, nitrogen, lcsh:Agriculture, chemistry.chemical_compound, chemistry, Agronomy, application depth, Agriculture, engineering, Environmental science, fertilization efficiency, Fertilizer, business, Agronomy and Crop Science, Nitrogen cycle

Abstract

This study presents the results of a four-year field experiment assessing the effectiveness of phosphorus application in maize cultivation according to the depth of two-component fertilizer (NP) placement in the soil layer, type of nitrogen fertilizer and date of application. Nitrogen utilization from mineral fertilizer was low&mdash, on average, 37.1% during the four years of research. The nitrogen metabolism index, measuring the agricultural and physiological efficiency of nitrogen use, confirmed the significant impact of NP fertilizer placement at 10 and 5 cm as optimal in maize fertilization. The use of nitrogen in maize cultivation before sowing, compared to the application of this component at the phase of 5-6 leaves BBCH 15/16 stage (stage of leaf development with five&ndash, six leaves unfolded), significantly increased the agricultural and physiological effectiveness of nitrogen applied in mineral fertilizer. Ammonium nitrate application before sowing the maize, compared to top dressing at the BBCH 15/16 stage, significantly increased nitrogen uptake and utilization from mineral fertilizer. Date of urea fertilizer application to the soil did not have a significant impact on these indicators in maize cultivation.

Published

2020

35. Efficiency of Nitrogen Fertilization of Winter Wheat Depending on Sulfur Fertilization

Author

A. Lepiarczyk, Barbara Filipek-Mazur, Monika Tabak, and Aneta Lisowska

Subjects

cereals, Ammonium sulfate, Field experiment, Ammonium nitrate, Winter wheat, lcsh:S, chemistry.chemical_element, engineering.material, Sulfur, Nitrogen, lcsh:Agriculture, chemistry.chemical_compound, Animal science, Human fertilization, chemistry, engineering, ammonium nitrate, ammonium sulfate, fertilization efficiency, Fertilizer, Agronomy and Crop Science

Abstract

Optimization of fertilization enables to obtain a yield of high quality and quantity, brings economic profits, and reduces environmental threats. The aim of the three-year field experiment was to determine the efficiency of fertilization with a new fertilizer available on the Polish market and containing nitrogen (N) and sulfur (S) in proportions designed for cereals cultivation (30% N and 6% S as ammonium nitrate and ammonium sulfate). Other treatments included no fertilization, fertilization with ammonium nitrate (34% N), fertilization with standard nitrogen and sulfur fertilizer with N supplementation with ammonium nitrate. Nitrogen doses were 150, 200, and 250 kg N ha&minus, 1. Sulfur was applied in doses of 30, 40, and 50 kg S ha&minus, 1. A beneficial effect of using fertilizer containing N and S in proportions designed for cereals cultivation was observed. The highest mean optimal nitrogen dose and maximum winter wheat yield were recorded for the new fertilizer (217 kg N ha&minus, 1 and 8251 kg ha&minus, 1, respectively). Sulfur supplementation with the new fertilizer significantly increased apparent nitrogen recovery (mean values 48.9%, 44.6%, and 40.6% for doses 150, 200, and 250 kg N ha&minus, 1, respectively), agronomic efficiency (11.1 and 8.6 kg kg&minus, 1 N for doses 200 and 250 kg N ha&minus, 1, respectively), and physiological efficiency (24.7 kg kg&minus, 1 N for dose 200 kg N ha&minus, 1).

Published

2020

36. Can the partial deletion in the Y chromosome of male mice affect the reproductive efficiency of their daughters?

Author

Kotarska, Katarzyna and Styrna, Jozefa

Subjects

*DELETION mutation, *Y chromosome, *REPRODUCTION, *LABORATORY mice, *OVUM, *EXTRACELLULAR matrix, *GENOMIC imprinting

Abstract

It has been previously shown that cumuli oophori around ovulated oocytes of B10.BR-Ydel female mice (sired by males with the deleted Y chromosome) are more resistant to enzymatic treatment than cumuli oophori around eggs of control B10.BR females (having fathers with the intact Y chromosome). This can imply that some genes which influence the establishment of the imprinting pattern in male gametes are located in the region covered by the deletion. We hypothesize that the Y-dependent imprinting pattern, inherited by female offspring, affects stability of periovum layers within them. In the present study, cumulus-oocyte complexes ovulated by females from consomic strains: DBA, DBA-YBR, DBA-Ydel, and CBA, CBA-YBR, CBA-Ydel were tested for their susceptibility to hyaluronidase digestion. The mean times for dispersal of cumulus cells surrounding oocytes of females from the backcross lines were convergent with the times typical for oocytes from strains being the donors of the Y chromosome (B10.BR or B10.BR-Ydel) and differed clearly from pure DBA and CBA strains. It confirmed previous findings that Y chromosomes of fathers influence the properties of cumulus-oocyte complexes ovulated by their daughters. This influence is definitely stronger than the influence of the genetic background. Additionally, it was demonstrated that the cumuli oophori surrounding oocytes of B10.BR-Ydel females exhibit increased resistance to penetration by spermatozoa in vitro, in comparison to the control B10.BR strain. This regularity was reflected in the decreased proportion of fertilized ova recovered from oviducts of B10.BR-Ydel females mated with B10.BR-Ydel males and in the lower litter sizes recorded for these pairs. The excessive stability of cumuli oophori typical for oocytes of females having Ydel fathers may negatively affect their fertility, if they have partners producing poor quality sperm. [ABSTRACT FROM AUTHOR]

Published

2012

37. A within-vector mathematical model of Plasmodium falciparum and implications of incomplete fertilization on optimal gametocyte sex ratio

Author

Teboh-Ewungkem, Miranda I. and Yuster, Thomas

Subjects

*MATHEMATICAL models, *PLASMODIUM falciparum, *GERM cells, *MICROORGANISM populations, *SEX ratio, *SALIVARY glands, *FERTILIZATION (Biology), *MALARIA prevention, *ANOPHELES, *BEHAVIOR

Abstract

Abstract: A mathematical model that simulates the within-vector dynamics of Plasmodium falciparum in an Anopheles mosquito is developed, based on experimental data. The model takes a mosquito''s blood meal as input and computes the salivary gland sporozoite load as the final output, a probable measure of mosquito infectivity. Computational model results are consistent with observed results in nature. Sensitivity analysis of the model parameters suggests that reducing the gametocyte density in the blood meal most significantly lowers sporozoite load in the salivary glands and hence mosquito infectivity, and is thus an attractive target for malaria control. The model is used to investigate the implication of incomplete fertilization on optimal gametocyte sex ratio. For a single strain, the transition from complete fertilization to increasingly incomplete fertilization shifts that ratio from 1 to N, where N is the number of viable male gametes produced by a single male gametocyte, towards 1 to 1, which is demonstrated to be the limiting ratio analytically. This ratio is then shown to be an evolutionarily stable strategy as well in the limiting case. [Copyright &y& Elsevier]

Published

2010

38. Effect of wheat crop fertilization on nitrogen dynamics and balance in the Humid Pampas, Argentina

Author

Abril, A., Baleani, D., Casado-Murillo, N., and Noe, L.

Subjects

*WATER pollution, *WATER in agriculture, *FERTILIZERS, *AGRICULTURE

Abstract

Abstract: Water contamination by nitrates has increased international awareness. It is widely accepted that massive fertilizer application is the principal factor responsible for water nitrate contamination. During the last years, Argentina has extraordinarily increased the use of fertilizers, particularly on wheat (Triticum aestivum L.). However, few studies have quantified nitrate losses. Here we report N dynamics in soil fractions and N balance in wheat crops in Marcos Juarez, province of Córdoba (Argentina) with the aim of determining nitrate loss and its possible influence on water contamination. Four treatments were studied to evaluate the combined effect of tillage systems and N fertilizer doses on N losses in soil 0–20cm in depth. The treatments analyzed were: (a) conventional tillage, non-fertilized (CT 0N), (b) no-till and 25kgNha−1 (NT 25N), (c) no-till and 50kgNha−1 (NT 50N), and (d) no-till and 140kgNha−1 (NT 140N). Determinations were: soil total N, NO3 −-N, NH4 +-N, microbial biomass N, crop residue biomass, crop residue N, and grain N. N balance was calculated as the difference in N fractions between harvest and sowing samples. N balance was negative in all treatments evaluated; the highest N loss (−1075kgNha−1) occurred with the highest fertilization rate (140kgNha−1). Losses of microbial and soluble N fractions were significant at the end of the crop cycle in all the treatments analyzed (15 and 40%, respectively), probably due to leaching by high precipitations (250mm). Much of the N lost was soil organic matter N, a fact seldom considered in other N balances. Furthermore, it was observed that neither yield efficiency nor the remaining N increased significantly with the highest fertilization dose (140N). Our data show that high doses of nitrogen fertilizer result in low N utilization efficiency and a high risk of water contamination by nitrates. [Copyright &y& Elsevier]

Published

2007

39. Recycling of biological sludge for the fertilizing of soils cultivated with Lolium perenne

Author

Florica Morariu, Smaranda Mâșu, Adina Horablaga, Anca Andreea Marin, Gheorghe Cioban, and Dumitru Popescu

Subjects

lcsh:Agriculture, lcsh:T, slaughterhouse sludge recycling, lcsh:S, fertilization efficiency, lcsh:Q, grass harvested, lcsh:Science, metal bioaccumulation, lcsh:Technology

Abstract

The present study has been elaborated with the aim of justifying the high efficiency of in-situ slaughterhouse sludge recycling and its usage in Lolium perenne cultures. Stabilized slaughterhouse sludge was used to complete the high deficiency in nutrients of the poor terrains. Slaughterhouse sludge represents an excessive, final by product from a meat-processing unit in Western Romania. It contains 59.78-90.77% easily bio-degradable organic substances. Moreover, it has compounds containing nitrogen and phosphorus, total N=1.922-3.318%, total P=1107-1126mg•kg-1D.M. The experimental variants have been prepared, having the following characteristics: control variants of non-fertilized soils and variants of soils fertilized with slaughterhouse sludge, 50t•ha-1. The experimental variants used were arranged in a completely randomized block design, with three replicates each. The efficiency of fertilization with slaughterhouse sludge was a 30-35% rise in the quantity of grass harvested vs. the quantities harvested from the control variants. The quantity of Cd and Pb has been determined from the aerial parts of the harvested plants and they were below the maximum limit admitted by the sanitary regulations in Romania. Cr didn’t bio-accumulate in plants at a detection limit. The quantity of other metals determined from the aerial parts of the plants was low: i.e.

Published

2017

40. Bacillus spp. as plant growth-promoting bacteria in cotton under greenhouse conditions

Author

Paola Andrea Escobar Diaz, Noemi Carla Baron, Everlon Cid Rigobelo, and Universidade Estadual Paulista (Unesp)

Subjects

Nitrogen fixation, Height, fungi, food and beverages, Bacillus, Plant Science, Fertilization efficiency, Shoot and root dry matter, Agronomy and Crop Science, Chlorophyll content, Phosphorus solubilization

Abstract

Made available in DSpace on 2020-12-12T01:17:41Z (GMT). No. of bitstreams: 0 Previous issue date: 2019-12-01 The use of plant growth-promoting bacteria (PGPB) is a promising alternative method to improve plant efficiency in the utilization of chemical fertilizers, enabling a reduction of fertilizer application on crops. This study aimed to evaluate the potential of ten Bacillus strains (eight B. subtilis, one B. velezensis and one B. amyloliquefaciens) to promote growth in cotton plants under greenhouse conditions. The experiment was performed in a completely randomized design with 11 treatments and five replicates under greenhouse conditions. The parameters related to plant growth from treatments that received the bacterial isolates were compared to the control. The parameters analyzed were shoot dry matter, root dry matter, total dry matter, plant height, nitrogen content and phosphorus content in soil and in plants. The highest root dry matter was 1.24 g for the isolate 263. The total dry matter was 4.0 g for the isolate 248 and 3.54 g for the isolate 290. The highest chlorophyll content was 28 μg/cm2 for the isolate 290. The higher N content in shoot dry matter was 28 g of N for the isolate 290, 26 g for the isolate 248 and 25 g for the isolate 320. The improved P efficiency use was 32% for the isolate 248, 28% for the isolate 188 and 27% for the isolate 274. These results strongly confirm that B. subtilis isolates 248, 290 and 263 may represent a good alternative as plant growth-promoting endophytes to cotton crops, as they positively affected several parameters evaluated, such as root and shoot dry matter and phosphorus content in the soil. In addition, the parameters evaluated can strongly and positively affect plant yield. However, some isolates of B. subtilis did not promote plant growth and most likely failed as bioinoculants. This result shows the importance of properly identifying the isolate for bioinoculation to achieve success in promoting plant growth. Agricultural and Livestock Microbiology Graduate Program São Paulo State University (UNESP) School of Agricultural and Veterinarian Sciences Agricultural and Livestock Microbiology Graduate Program São Paulo State University (UNESP) School of Agricultural and Veterinarian Sciences

Published

2019

41. Mineral nitrogen fertilization effects on lettuce crop yield and nitrogen leaching

Author

Thiago de Barros Sylvestre, Lucas Boscov Braos, Felipe Batistella Filho, Mara Cristina Pessôa da Cruz, Manoel Evaristo Ferreira, Mosaic Brasil, Universidade Estadual Paulista (Unesp), and and Technology of São Paulo

Subjects

0106 biological sciences, 0301 basic medicine, chemistry.chemical_element, Lactuca, Horticulture, Nitrate, 01 natural sciences, 03 medical and health sciences, chemistry.chemical_compound, Human fertilization, Nutrient, Transplanting, Leaching (agriculture), biology, Lactuca sativa, Crop yield, Fertilization efficiency, biology.organism_classification, Nitrogen, 030104 developmental biology, chemistry, Agronomy, Environmental science, Topdressing, 010606 plant biology & botany

Abstract

Made available in DSpace on 2019-10-06T16:30:41Z (GMT). No. of bitstreams: 0 Previous issue date: 2019-09-20 Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP) The low efficiency of N fertilization in soils used to grow vegetables and the consequent need to add high levels of the nutrient are the major cause of nitrate contamination of groundwater and freshwater, which calls for practices to increase N fertilization efficiency in these crops. Two experiments were carried out in Jaboticabal, Brazil, to evaluate the effects of topdressing N fertilization on crisphead lettuce (Lactuca sativa)yield, nitrate accumulation in plant shoots, and soil nitrogen leaching in two growing seasons, summer and winter. Both experiments were designed as randomized blocks with seven treatments and five replications (35 plots). The treatments were seven different rates of topdressing N. The rates of N application were 0, 30, 60, 90, 120, 150, and 180 kg N ha -1 in the form of urea, applied 8 (20%), 16 (40%), and 24 (40%)days after transplanting. Lettuce was harvested 34 and 42 d after transplanting in the summer and winter, respectively. Plant nitrate concentrations were determined in dry matter. After the harvest, soil samples were collected at the 0-20, 20-40, and 40-60 cm layers to quantify nitrogen in the forms of ammonium and nitrate. The data were submitted to analysis of variance and nonlinear regression analysis. Better use of topdressing nitrogen fertilization for lettuce growth was observed at rates lower than 60 kg N ha -1. Rates of N up to 180 kg N ha -1 did not elevate lettuce nitrate concentrations over the levels allowed for consumption but increased the amount of nitrogen lost through leaching. Decreasing N rates resulted in a similar yield and lower nitrogen leaching, improving both the environmental and economic aspects. Mosaic Brasil, Av. Roque Petroni Jr 999 Departamento de Solos e Adubos Faculdade de Ciências Agrárias e Veterinárias UNESP – Univ Estadual Paulista. Via de acesso Prof, Paulo Donato Castellane s/n Federal Institute of Education Science and Technology of São Paulo, Campus Matão. R. Estéfano D'avassi 625 N Departamento de Solos e Adubos Faculdade de Ciências Agrárias e Veterinárias UNESP – Univ Estadual Paulista. Via de acesso Prof, Paulo Donato Castellane s/n FAPESP: #2008/52415-1

Published

2019

42. Assessment of the Efficiency of Nitrogen Slow-Release Fertilizers in Integrated Production of Carrot Depending on Fertilization Strategy

Author

Maciej Kuboń, Marcin Niemiec, Monika Komorowska, Anna Szeląg-Sikora, Jakub Sikora, Monika Tabak, and Zofia Gródek-Szostak

Subjects

Ammonium phosphate, Ammonium nitrate, Geography, Planning and Development, TJ807-830, 010501 environmental sciences, Management, Monitoring, Policy and Law, engineering.material, TD194-195, 01 natural sciences, Renewable energy sources, chemistry.chemical_compound, Human fertilization, GE1-350, fertilization efficiency, Integrated production, carrot, 0105 earth and related environmental sciences, Environmental effects of industries and plants, Renewable Energy, Sustainability and the Environment, Crop yield, food and beverages, 04 agricultural and veterinary sciences, Environmental sciences, chemistry, Agronomy, integrated production, slow-release fertilizer, Loam, 040103 agronomy & agriculture, engineering, 0401 agriculture, forestry, and fisheries, Environmental science, Fertilizer, Plant nutrition, management

Abstract

Optimization of plant nutrition is a very important part of primary production quality systems. Crop fertilization is the most important agrotechnical measure because it determines the amount and quality of the yield. Moreover, excess fertilization intensifies the eutrophication processes and the greenhouse effect. The study aimed to assess the suitability of slow-release fertilizers in cultivation of carrot subspecies Daucus carota L. ssp. sativus in the integrated production system. The objective was realized on the basis of a strict field experiment set up on a clay loam soil with low nutrient content. The dose of fertilizer was the experimental factor. The fertilizers were applied during the formation of the ridges. Traditional fertilizers (ammonium phosphate, potassium salt, ammonium nitrate, and a multi-component fertilizer Polifoska 6), as well as a multi-component fertilizer with slow release of nutrients, NPK Mg (18-12-24-4), were used. In individual variants of the experiment, different fertilization strategies were applied: integrated production fertilization, traditional fertilization, and fertilization based on the use of slow-release fertilizers. The control treatment comprised of unfertilized plants. The efficiency of nitrogen fertilization was evaluated based on agronomic efficiency, partial factor productivity, physiological efficiency, and removal efficiency. Fertilization strategy significantly impacted the quantity of obtained yield. In the control sample, prior to mineral fertilization, the crop yield was 33.53 Mg&middot, ha&minus, 1. The largest yield was 82.30 Mg&middot, 1.The largest yields were obtained from plants fertilized with a combination of slow-release fertilizers, with nitrogen introduced in the form of ammonium phosphate, and through conventional fertilization. The highest productivity and environmental efficiency were obtained in treatments with fertilization according to the principles of integrated production and with slow-release fertilizers. In terms of environmental efficiency, the best results were obtained through nitrogen fertilization using 400 kg of slow-release fertilizers. The use of slow-release fertilizers in carrot cultivation can significantly improve the efficiency of fertilization, both in terms of production and environmental protection.

Published

2020

43. Bacillus spp. as plant growth promoting bacteria in cotton culture

Author

Diaz, Paola Andrea Escobar, Universidade Estadual Paulista (Unesp), and Rigobelo, Everlon Cid

Subjects

Teor de Clorofila, chlorophyll content, nitrogen fixation, BPCP, phosphorus solubilization, shoot and root dry matter, Eficiência de adubação, Massa Seca, Solubilização de fósforo, fertilization efficiency, Fixação de nitrogênio, Altura, height

Abstract

Submitted by PAOLA ANDREA ESCOBAR DIAZ null (paitopink@hotmail.com) on 2018-03-26T01:18:57Z No. of bitstreams: 1 Dissertação Mestrado Paola Andrea Escobar Diaz.pdf: 1634986 bytes, checksum: bc533d62e487cc8174926d75306e2f98 (MD5) Approved for entry into archive by Alexandra Maria Donadon Lusser Segali null (alexmar@fcav.unesp.br) on 2018-03-26T10:54:22Z (GMT) No. of bitstreams: 1 diaz_pae_me_jabo.pdf: 1634986 bytes, checksum: bc533d62e487cc8174926d75306e2f98 (MD5) Made available in DSpace on 2018-03-26T10:54:22Z (GMT). No. of bitstreams: 1 diaz_pae_me_jabo.pdf: 1634986 bytes, checksum: bc533d62e487cc8174926d75306e2f98 (MD5) Previous issue date: 2018-03-09 Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES) O uso contínuo de fertilizantes minerais na agricultura promove o excesso de nutrientes como fósforo, nitrogênio e potássio o que ocasiona danos ao ecossistema e leva à alteração da microbiota do solo. Além disso, existe uma baixa eficiência das plantas em absorver e utilizar esses nutrientes o que gera perdas da adubação mineral. Neste sentido o uso de bactérias promotoras de crescimento de plantas (BPCP) é uma alternativa promissora para melhorar a eficiência das plantas na utilização dos fertilizantes minerais. O presente trabalho teve por objetivo avaliar o potencial de dez isolados Bacillus (oito isolados de Bacillus subtilis, um isolado de Bacillus velezensis e um isolado de Bacillus amyloliquefaciens) quanto à sua capacidade de promoção de crescimento na cultura de algodão em condições de vaso em casa de vegetação. O experimento foi realizado em delineamento inteiramente casualizado com 11 tratamentos e cinco repetições. Os parâmetros avaliados foram altura da planta, massa seca da parte aérea e raiz, teores de clorofila nas folhas, nitrogênio e fósforo na planta e no solo. A massa seca total (parte aérea e raiz) foi maior nos isolados 248 e 290 (B. subtilis), e maiores valores de altura das plantas foram obtidos para o isolado 248. O teor de clorofila nas folhas foi superior nas plantas inoculadas com o isolado 290, indicando que o mesmo foi capaz de aumentar a atividade fotossintética das plantas de algodão. Os teores de nitrogênio na parte aérea e na raiz foram superiores nos tratamentos com os isolados 248 e 290, o que indica que houve estabelecimento dessas bactérias na rizosfera melhorando a disponibilidade e absorção de nitrogênio pela planta. O teor de fosforo na raiz foi maior em plantas que receberam o isolado 001 (B. amyloliquefaciens) o que indica que esse isolado favorece a absorção de fósforo pela planta. O isolado 248 apresentou maior quantidade de fósforo solúvel disponível no solo o que demostra que B. subtilis atua positivamente na solubilização do fósforo. A análise molecular do DNA ribossomal 16S de isolados obtidos do reisolamento a partir do solo e raiz das plantas do algodão confirmam a identidade das linhagens utilizadas. Finalmente, os isolados 248 e 290 de B. subtilis têm a capacidade de aumentar os teores de clorofila e nitrogênio nas plantas, altura e matéria seca, e também solubilizam fósforo, o que os torna agentes potencias para uso como bioinoculantes nas plantas de algodão. The continuous use of mineral fertilizers in agriculture promotes the excess of nutrients as phosphorus, nitrogen and potassium in the ecosystems which causes damages and leads to the instability of the soil microbiota. Moreover, a low efficiency of the plants to absorb and use these nutrients causes losses of the mineral fertilization, but the use of plant growth promoting bacteria (PGPB) is a promising alternative to improve plant efficiency in the use of mineral fertilizers implying in the reduction of its application on the crops. This work aimed to evaluate the potential of ten Bacillus strains (eight of B. subtilis, one of B. velezensis and one of B. amyloliquefaciens) about their capacity to promote growth of cotton seedlings on greenhouse conditions. The experiment was carried out in a completely randomized design with 11 treatments and five replicates. The parameters evaluated were plant height, dry matter of aerial part and root, chlorophyll content in leaves, nitrogen and phosphorus in the plant and soil. The total dry matter (aerial part and root) was higher to the isolates 248 and 290 of B. subtilis, and higher values of plant height were obtained for the isolate 248. The chlorophyll content in leaves was higher in plants inoculated with the isolate 290 what indicates that this isolate was able to increase the photosynthetic activity of cotton seedlings. The nitrogen content in the aerial part and roots was higher at the treatments with the isolates 248 and 290 indicating that the bacteria were established in the rhizosphere improving the nitrogen availability and absorption by the plant. The phosphorus content in the roots was higher in seedlings treated with the isolate 001 of B. amyloliquefaciens, what demonstrates that this isolate favors its uptake by the plant. The isolate 248 provided the highest amount of soluble phosphorus available in the soil, which shows that B. subtilis acts positively on phosphorus solubilization. The molecular analysis of 16S Ribosomal DNA from isolates obtained from reisolation from the soil and roots of cotton seedlings confirms the identity of the strains used at the experiment. Finally, isolates 248 and 290 of B. subtilis are able to increase nitrogen and chlorophyll contents in the plants, high and dry matter, and also solubilize phosphorus, which make them potential agents for use as bioinoculants in cotton plants. Capes:1590076

Published

2018

44. In-Soil Application of NP Mineral Fertilizer as a Method of Improving Nitrogen Yielding Efficiency.

Author

Szulc, Piotr, Barłóg, Przemysław, Ambroży-Deręgowska, Katarzyna, Mejza, Iwona, and Kobus-Cisowska, Joanna

Subjects

*FERTILIZER application, *NITROGEN fertilizers, *NITROGEN, *LEAF development, *AMMONIUM nitrate, *UREA as fertilizer, *FERTILIZERS

Abstract

This study presents the results of a four-year field experiment assessing the effectiveness of phosphorus application in maize cultivation according to the depth of two-component fertilizer (NP) placement in the soil layer, type of nitrogen fertilizer and date of application. Nitrogen utilization from mineral fertilizer was low—on average, 37.1% during the four years of research. The nitrogen metabolism index, measuring the agricultural and physiological efficiency of nitrogen use, confirmed the significant impact of NP fertilizer placement at 10 and 5 cm as optimal in maize fertilization. The use of nitrogen in maize cultivation before sowing, compared to the application of this component at the phase of 5-6 leaves BBCH 15/16 stage (stage of leaf development with five–six leaves unfolded), significantly increased the agricultural and physiological effectiveness of nitrogen applied in mineral fertilizer. Ammonium nitrate application before sowing the maize, compared to top dressing at the BBCH 15/16 stage, significantly increased nitrogen uptake and utilization from mineral fertilizer. Date of urea fertilizer application to the soil did not have a significant impact on these indicators in maize cultivation. [ABSTRACT FROM AUTHOR]

Published

2020

45. Efficiency of Nitrogen Fertilization of Winter Wheat Depending on Sulfur Fertilization.

Author

Tabak, Monika, Lepiarczyk, Andrzej, Filipek-Mazur, Barbara, and Lisowska, Aneta

Subjects

*SULFUR fertilizers, *SULFUR, *AMMONIUM nitrate, *NITROGEN fertilizers, *AMMONIUM sulfate, *WINTER wheat, *NITROGEN in soils

Abstract

Optimization of fertilization enables to obtain a yield of high quality and quantity, brings economic profits, and reduces environmental threats. The aim of the three-year field experiment was to determine the efficiency of fertilization with a new fertilizer available on the Polish market and containing nitrogen (N) and sulfur (S) in proportions designed for cereals cultivation (30% N and 6% S as ammonium nitrate and ammonium sulfate). Other treatments included no fertilization; fertilization with ammonium nitrate (34% N); fertilization with standard nitrogen and sulfur fertilizer with N supplementation with ammonium nitrate. Nitrogen doses were 150, 200, and 250 kg N ha−1. Sulfur was applied in doses of 30, 40, and 50 kg S ha−1. A beneficial effect of using fertilizer containing N and S in proportions designed for cereals cultivation was observed. The highest mean optimal nitrogen dose and maximum winter wheat yield were recorded for the new fertilizer (217 kg N ha−1 and 8251 kg ha−1, respectively). Sulfur supplementation with the new fertilizer significantly increased apparent nitrogen recovery (mean values 48.9%, 44.6%, and 40.6% for doses 150, 200, and 250 kg N ha−1, respectively), agronomic efficiency (11.1 and 8.6 kg kg−1 N for doses 200 and 250 kg N ha−1, respectively), and physiological efficiency (24.7 kg kg−1 N for dose 200 kg N ha−1). [ABSTRACT FROM AUTHOR]

Published

2020

46. Assessment of the Efficiency of Nitrogen Slow-Release Fertilizers in Integrated Production of Carrot Depending on Fertilization Strategy.

Author

Sikora, Jakub, Niemiec, Marcin, Tabak, Monika, Gródek-Szostak, Zofia, Szeląg-Sikora, Anna, Kuboń, Maciej, and Komorowska, Monika

Abstract

Optimization of plant nutrition is a very important part of primary production quality systems. Crop fertilization is the most important agrotechnical measure because it determines the amount and quality of the yield. Moreover, excess fertilization intensifies the eutrophication processes and the greenhouse effect. The study aimed to assess the suitability of slow-release fertilizers in cultivation of carrot subspecies Daucus carota L. ssp. sativus in the integrated production system. The objective was realized on the basis of a strict field experiment set up on a clay loam soil with low nutrient content. The dose of fertilizer was the experimental factor. The fertilizers were applied during the formation of the ridges. Traditional fertilizers (ammonium phosphate, potassium salt, ammonium nitrate, and a multi-component fertilizer Polifoska 6), as well as a multi-component fertilizer with slow release of nutrients, NPK Mg (18-12-24-4), were used. In individual variants of the experiment, different fertilization strategies were applied: integrated production fertilization, traditional fertilization, and fertilization based on the use of slow-release fertilizers. The control treatment comprised of unfertilized plants. The efficiency of nitrogen fertilization was evaluated based on agronomic efficiency, partial factor productivity, physiological efficiency, and removal efficiency. Fertilization strategy significantly impacted the quantity of obtained yield. In the control sample, prior to mineral fertilization, the crop yield was 33.53 Mg·ha−1. The largest yield was 82.30 Mg·ha−1.The largest yields were obtained from plants fertilized with a combination of slow-release fertilizers, with nitrogen introduced in the form of ammonium phosphate, and through conventional fertilization. The highest productivity and environmental efficiency were obtained in treatments with fertilization according to the principles of integrated production and with slow-release fertilizers. In terms of environmental efficiency, the best results were obtained through nitrogen fertilization using 400 kg of slow-release fertilizers. The use of slow-release fertilizers in carrot cultivation can significantly improve the efficiency of fertilization, both in terms of production and environmental protection. [ABSTRACT FROM AUTHOR]

Published

2020

47. Eficiencia fisiológica de N, P, K y Mg en maíces H-47 y H-59

Author

Zamudio González, Benjamín, Tadeo Robledo, Margarita, Espinosa Calderón, Alejandro, Martínez Rodríguez, Juan Nelson, Celis Euan, David Israel, Turrent Fernández, Antonio, Valdivia Bernal, Roberto, Zamudio González, Benjamín, Tadeo Robledo, Margarita, Espinosa Calderón, Alejandro, Martínez Rodríguez, Juan Nelson, Celis Euan, David Israel, Turrent Fernández, Antonio, and Valdivia Bernal, Roberto

Abstract

The low efficiency of fertilizer use in agricultural soils negatively impacts productivity and sustainability of production systems. Rates of apparent physiological efficiency (EFA) were calculated regarding different fertilization treatments on the soil for hybrid H-47 and H-59. The EFA of a nutrient is the ratio of grain harvested in kg per kg of N, P, K or Mg in the crop's biomass for one hectare. We used a full factorial of five hybrid for eight fertilization treatments under the concept of "omission plot", a mode of minimum act by Leibniz. The "complete and sufficient" formula in kg ha-1 to harvest at least 10 t ha-1 of maize grain was: 240N-90P2O5-80K2O-60S-50MgO-380CaO (T8 ). With the successive omission of a macro nutrient we obtained: T1 (-N), T2 (-P), T3 (-K), T4 (-S), T5 (-Mg), T6 (-Ca) and T7 ("farmer" with 70% NPK dose of "full dose", but without S, Mg and Ca). Sowing with 90 thousand seeds per hectare in soil with "irrigation tip" on May 13th. Cobs and crop characteristics were measured in quadruplicate. With the contents of macro nutrient and biomass production of grain H-47 and H-59, calculating EFA, of treatments omission of N, P, K and Mg. The variables were analysed with SAS, separating the means by Tukey 5% test. The EFA, of all the fertility treatments were: for H-47 de 33.6/N, 232.4/P, 51.7/K and 553.4/Mg and for H-59 de 39.0/N, 181.1/P, 67.1/K and 421.8/Mg. EFA values change more associated with the genotype compared to omission of some macro nutrients. Keywords: maize (Zea mays L.), fertilization efficiency, plant nutrition, La baja eficacia del uso de fertilizantes en suelos agrícolas impacta negativamente en la productividad y sustentabilidad de los sistemas de producción. Se calcularon los índices de la eficiencia fisiológica aparente (EFA) de diferentes tratamientos de fertilización al suelo para los híbridos H-47 y H-59. La EFA de un nutrimento es el cociente de los kg de grano cosechado por kg de N, P, K o Mg en la biomasa del cultivo para una hectárea. Se utilizó un factorial completo de cinco híbridos por ocho tratamientos de fertilización bajo el concepto de "parcelas de omisión", modalidad de la Ley del Mínimo de Leibniz. La fórmula "completa y suficiente" en kg ha-1 para cosechar al menos 10 t ha-1 de grano de maíz fue: 240N-90P2O5-80K2O-60S-50MgO-380CaO (T8). Con la sucesiva omisión de un macro nutrimento se obtuvieron: T1 (-N), T2 (-P), T3 (-K), T4 (-S), T5 (-Mg), T6 (-Ca) y T7 ("agricultor" con 70% de la dosis de NPK de "dosis completa"; pero sin S, Mg y Ca). Se sembró con 90 mil semillas por hectárea en suelo con "punta de riego" el 13 de mayo. Características de mazorca y cosecha se midieron por cuadriplicado. Con los contenidos de macro nutrimentos en biomasa y producción de grano de H-47 y H-59 se calcularon las EFA,s de tratamientos de omisión de N, P, K y Mg. Las variables se analizaron con SAS y se separaron las medias con prueba de Tukey al 5%. Las EFA, s del conjunto de los tratamientos de fertilización fueron: para H-47 de 33.6/N, 232.4/P, 51.7/K y 553.4/Mg; y para H-59 de 39.0/N, 181.1/P, 67.1/K y 421.8/Mg. Los valores de EFA cambian más asociado a genotipo en comparación a la omisión de algún macro nutrimento. Palabras-clave: maíz (Zea mays L.); eficiencia de fertilización; nutrición vegetal

Published

2015

48. Evolution of female multiple mating: A quantitative model of the 'sexually selected sperm' hypothesis

Author

Jane M. Reid and Greta Bocedi

Subjects

Male, genetic covariance, media_common.quotation_subject, polyandry, Biology, runaway coevolution, Competition (biology), Insemination, sperm competition, Evolution, Molecular, sexy-son, Genetics, Animals, Mating, Selection, Genetic, Sperm competition, Ecology, Evolution, Behavior and Systematics, Selection (genetic algorithm), Coevolution, media_common, Models, Genetic, Original Articles, Mating Preference, Animal, Fertilization efficiency, Spermatozoa, Preference, Evolutionary biology, indirect selection, Fertilization, Mutation (genetic algorithm), Mutation, Evolutionary ecology, Female, General Agricultural and Biological Sciences

Abstract

Explaining the evolution and maintenance of polyandry remains a key challenge in evolutionary ecology. One appealing explanation is the sexually selected sperm (SSS) hypothesis, which proposes that polyandry evolves due to indirect selection stemming from positive genetic covariance with male fertilization efficiency, and hence with a male's success in postcopulatory competition for paternity. However, the SSS hypothesis relies on verbal analogy with “sexy-son” models explaining coevolution of female preferences for male displays, and explicit models that validate the basic SSS principle are surprisingly lacking. We developed analogous genetically explicit individual-based models describing the SSS and “sexy-son” processes. We show that the analogy between the two is only partly valid, such that the genetic correlation arising between polyandry and fertilization efficiency is generally smaller than that arising between preference and display, resulting in less reliable coevolution. Importantly, indirect selection was too weak to cause polyandry to evolve in the presence of negative direct selection. Negatively biased mutations on fertilization efficiency did not generally rescue runaway evolution of polyandry unless realized fertilization was highly skewed toward a single male, and coevolution was even weaker given random mating order effects on fertilization. Our models suggest that the SSS process is, on its own, unlikely to generally explain the evolution of polyandry.

Published

2014

49. Can the partial deletion in the Y chromosome of male mice affect the reproductive efficiency of their daughters?

Author

Katarzyna Kotarska and Józefa Styrna

Subjects

Male, cumulus-oocyte complex, Offspring, Urology, extracellular matrix, Male mice, Biology, Y chromosome, cumulus oophorus, Genomic Imprinting, Mice, Mice, Congenic, Pregnancy, Y Chromosome, Animals, fertilization efficiency, Imprinting (psychology), Gene, Sperm-Ovum Interactions, Genetics, Cumulus Cells, genome imprinting, Acrosome Reaction, Reproduction, Spermatozoa, Cumulus oophorus, Mice, Mutant Strains, Reproductive Medicine, Mice, Inbred DBA, Backcrossing, Mice, Inbred CBA, Female, Chromosome Deletion, Infertility, Female, deletion of Y chromosome

Abstract

It has been previously shown that cumuli oophori around ovulated oocytes of B10.BR-Y(del) female mice (sired by males with the deleted Y chromosome) are more resistant to enzymatic treatment than cumuli oophori around eggs of control B10.BR females (having fathers with the intact Y chromosome). This can imply that some genes which influence the establishment of the imprinting pattern in male gametes are located in the region covered by the deletion. We hypothesize that the Y-dependent imprinting pattern, inherited by female offspring, affects stability of periovum layers within them. In the present study, cumulus-oocyte complexes ovulated by females from consomic strains: DBA, DBA-Y(BR), DBA-Y(del), and CBA, CBA-Y(BR), CBA-Y(del) were tested for their susceptibility to hyaluronidase digestion. The mean times for dispersal of cumulus cells surrounding oocytes of females from the backcross lines were convergent with the times typical for oocytes from strains being the donors of the Y chromosome (B10.BR or B10.BR-Y(del)) and differed clearly from pure DBA and CBA strains. It confirmed previous findings that Y chromosomes of fathers influence the properties of cumulus-oocyte complexes ovulated by their daughters. This influence is definitely stronger than the influence of the genetic background. Additionally, it was demonstrated that the cumuli oophori surrounding oocytes of B10.BR-Y(del) females exhibit increased resistance to penetration by spermatozoa in vitro, in comparison to the control B10.BR strain. This regularity was reflected in the decreased proportion of fertilized ova recovered from oviducts of B10.BR-Y(del) females mated with B10.BR-Y(del) males and in the lower litter sizes recorded for these pairs. The excessive stability of cumuli oophori typical for oocytes of females having Y(del) fathers may negatively affect their fertility, if they have partners producing poor quality sperm.

Published

2012

50. Pollination of strawberry by the stingless bee, Trigona minangkabau,and the honey bee, Apis mellifera: an experimental study of fertilization efficiency

Author

Inoue, T., Kakutani, T., Tezuka, T., and Maeta, Y.

Published

1993