Influence of nitrogen fertilization on the energy value of maize grain in non-ruminants

Agricultural Science and Technology Pub Date : 2023-06-01 DOI:10.15547//ast.2023.02.015

R. Bazitov, M. Mihaylova, G. Ganchev

{"title":"Influence of nitrogen fertilization on the energy value of maize grain in non-ruminants","authors":"R. Bazitov, M. Mihaylova, G. Ganchev","doi":"10.15547//ast.2023.02.015","DOIUrl":null,"url":null,"abstract":"Abstract. Maize is the most widely spread energy source used in rations for farm animals and poultry, especially in countries in America, Southern Europe and Asia, where maize grain is the main cereal used for feed. The quality of maize grain is formed under the influence of several interrelated factors. The aim of the study is to determine the effect of different rates of nitrogen fertilization on the chemical composition and energy value of maize grain grown under irrigation conditions in non-ruminants. The study was conducted in the experimental field of the Agricultural Institute – Stara Zagora under irrigation conditions on cinnamon-meadow soil with maize for grain, medium late hybrid LG 35.36 with density of crops – 70000 plants per hectare. The study includes the following four treatments of fertilization: 1 experimental variant N0P80K60 – non-fertilizer control, 2 experimental variant N100P80K60 – fertilization with 100 kg N.ha-1, 3 experimental variant N150P80K60 – fertilization with 150 kg N.ha-1 and 4 experimental variant N200P80K60 – fertilization with 200 kg N.ha-1. Nitrogen fertilizer was applied during the vegetation of the crop in phase 3-5 leaf, and phosphorus and potassium fertilizers in rates 80 kg P2O5.ha-1 and 60 kg K2O.ha-1 in the main tillage. During the vegetation of the maize, pre-irrigation humidity of 80-85% of field capacity (FC) was maintained by 3 waterings. As the fertilization rate increases, the crude protein content in the maize grain also grows up. During the treatment with the highest fertilizer rate of 200 kg N.ha-1, 9.5% per 1 kg of dry matter (DM) was obtained, followed by the treatment with 150 kg N.ha-1 – with a value of 9.1% per 1 kg of dry matter. The content of crude fiber in the grain of maize with increasing fertilization rate decreases, being the smallest in the treatment with rate 100 kg N.ha-1 – 0.8% per 1 kg of dry matter. The fertilization rate does not have a significant effect on the content of digestible and metabolite energy in corn grain grown under irrigated conditions in pigs and poultry.","PeriodicalId":55762,"journal":{"name":"Agricultural Science and Technology","volume":" ","pages":""},"PeriodicalIF":0.0000,"publicationDate":"2023-06-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"Agricultural Science and Technology","FirstCategoryId":"1085","ListUrlMain":"https://doi.org/10.15547//ast.2023.02.015","RegionNum":0,"RegionCategory":null,"ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"","JCRName":"","Score":null,"Total":0}

引用次数: 0

Abstract

Abstract. Maize is the most widely spread energy source used in rations for farm animals and poultry, especially in countries in America, Southern Europe and Asia, where maize grain is the main cereal used for feed. The quality of maize grain is formed under the influence of several interrelated factors. The aim of the study is to determine the effect of different rates of nitrogen fertilization on the chemical composition and energy value of maize grain grown under irrigation conditions in non-ruminants. The study was conducted in the experimental field of the Agricultural Institute – Stara Zagora under irrigation conditions on cinnamon-meadow soil with maize for grain, medium late hybrid LG 35.36 with density of crops – 70000 plants per hectare. The study includes the following four treatments of fertilization: 1 experimental variant N0P80K60 – non-fertilizer control, 2 experimental variant N100P80K60 – fertilization with 100 kg N.ha-1, 3 experimental variant N150P80K60 – fertilization with 150 kg N.ha-1 and 4 experimental variant N200P80K60 – fertilization with 200 kg N.ha-1. Nitrogen fertilizer was applied during the vegetation of the crop in phase 3-5 leaf, and phosphorus and potassium fertilizers in rates 80 kg P2O5.ha-1 and 60 kg K2O.ha-1 in the main tillage. During the vegetation of the maize, pre-irrigation humidity of 80-85% of field capacity (FC) was maintained by 3 waterings. As the fertilization rate increases, the crude protein content in the maize grain also grows up. During the treatment with the highest fertilizer rate of 200 kg N.ha-1, 9.5% per 1 kg of dry matter (DM) was obtained, followed by the treatment with 150 kg N.ha-1 – with a value of 9.1% per 1 kg of dry matter. The content of crude fiber in the grain of maize with increasing fertilization rate decreases, being the smallest in the treatment with rate 100 kg N.ha-1 – 0.8% per 1 kg of dry matter. The fertilization rate does not have a significant effect on the content of digestible and metabolite energy in corn grain grown under irrigated conditions in pigs and poultry.

查看原文本刊更多论文

氮肥对非反刍动物玉米籽粒能量值的影响

摘要玉米是农场动物和家禽口粮中使用最广泛的能源，尤其是在美国、南欧和亚洲国家，玉米是用作饲料的主要谷物。玉米籽粒的品质是在多种相关因素的影响下形成的。本研究的目的是确定不同氮肥用量对非反刍动物在灌溉条件下种植的玉米籽粒的化学成分和能量值的影响。这项研究是在农业研究所的试验田——Stara Zagora——在灌溉条件下，在肉桂草甸土壤上进行的，玉米为谷物，中后期杂交LG 35.36，作物密度为每公顷70000株。本研究包括以下四种施肥处理：1种试验变体N0P80K60–无肥对照，2种试验变体N100P80K60-100 kg N.ha-1施肥，3种试验变体N1 50P80K60 150 kg N.ha-施肥，4种试验变体N200P80K60-200 kg N.ha-2施肥。在作物植被期施用氮肥，施用量为3-5叶，在主耕中施用磷钾肥，施用量分别为80kg P2O5.ha-1和60kg K2O.ha-1。在玉米种植期间，灌溉前的湿度通过3次浇水保持在田间容量（FC）的80-85%。随着施肥量的增加，玉米籽粒中的粗蛋白质含量也随之增加。在最高施肥量为200 kg N.ha-1的处理过程中，每1 kg干物质（DM）可获得9.5%的产量，其次是150 kg N.ha-1-的处理，每1公斤干物质可获得9.1%的产量。玉米籽粒粗纤维含量随着施肥量的增加而降低，在每1kg干物质施用100kg N.ha-1–0.8%的处理中含量最小。施肥率对猪和家禽在灌溉条件下种植的玉米籽粒中可消化能量和代谢产物能量的含量没有显著影响。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

求助全文

约1分钟内获得全文求助全文

来源期刊

Agricultural Science and Technology

自引率

0.00%

发文量

审稿时长

11 weeks