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17 pages, 6383 KiB  
Article
Potential of Cover Crop Use and Termination with a Roller-Crimper in a Strip-Till Silage Maize (Zea mays L.) Production System in the Central Valley of California
by Robert Willmott, Jennifer Valdez-Herrera, Jeffrey P. Mitchell and Anil Shrestha
Agronomy 2025, 15(1), 132; https://doi.org/10.3390/agronomy15010132 - 7 Jan 2025
Cited by 1 | Viewed by 998
Abstract
The potential of terminating cover crops with a roller-crimper is of increasing interest. A two-year (2020/21 and 2021/22) study was conducted in Fresno, CA, USA. Five cover crop treatments (rye (Secale cereale L.) alone, ultra-high diversity mix, multiplex cover crop mix, fava [...] Read more.
The potential of terminating cover crops with a roller-crimper is of increasing interest. A two-year (2020/21 and 2021/22) study was conducted in Fresno, CA, USA. Five cover crop treatments (rye (Secale cereale L.) alone, ultra-high diversity mix, multiplex cover crop mix, fava bean (Vicia faba L.) + phacelia (Phacelia tanacetifolia Benth.), and rye + field pea (Pisum sativum L.) + purple vetch (Vicia americana Muhl. Ex Willd.)) were planted in November, roller-crimped in April, and silage maize (Zea mays L.) was strip-till planted in the residue in May. Cover crop kill, soil cover by residue, weed cover, amount of organic residue, and silage maize yield were recorded. The roller-crimper resulted in 95 to 100% kill of the cover crops. Soil cover at maize canopy closure (mid-July) was approximately 90% in the rye plots while it was 30 to 70% in the other treatments. The fava bean + phacelia cover crop disintegrated the most rapidly. Weed cover was <5% in all the treatments until maize canopy closure. The cover crops added 6.7 to 14 MT ha−1 of residue. Maize silage yield was similar across the treatments. Therefore, in this study, cover crops were successfully terminated by the roller-crimper, allowing successful strip-till establishment and production of silage maize. Full article
(This article belongs to the Section Farming Sustainability)
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14 pages, 968 KiB  
Article
Impact of Forage Sources on Ruminal Bacteriome and Carcass Traits in Hanwoo Steers During the Late Fattening Stages
by Ryukseok Kang, Jaeyong Song, Joong Kook Park, Sukjun Yun, Jeong Heon Lee, Jun Sang Ahn, Chaemin Yu, Geonwoo Kim, Jongsik Jeong, Myeong-Gwan Oh, Wanho Jo, Woohyung Lee, Mekonnen Tilahun and Tansol Park
Microorganisms 2024, 12(10), 2082; https://doi.org/10.3390/microorganisms12102082 - 17 Oct 2024
Cited by 1 | Viewed by 1433
Abstract
This study examined the effects of different forage sources on the ruminal bacteriome, growth performance, and carcass characteristics of Hanwoo steers during the fattening stage. In Korea, where high-concentrate feeding is common, selecting suitable forage is crucial for sustainable beef production. Fifteen 23-month-old [...] Read more.
This study examined the effects of different forage sources on the ruminal bacteriome, growth performance, and carcass characteristics of Hanwoo steers during the fattening stage. In Korea, where high-concentrate feeding is common, selecting suitable forage is crucial for sustainable beef production. Fifteen 23-month-old Hanwoo steers, weighing an average of 679.27 ± 43.60 kg, were fed the following five different forage sources: oat hay (OAT), rye silage (RYE), Italian ryegrass (IRS), barley forage (BAR), and rice straw silage (RSS), alongside 1.5 kg of dry matter concentrate daily for five months. Carcass traits were evaluated post-slaughter, and rumen fluid samples were analyzed using full-length 16S rRNA gene sequencing to determine the bacteriome composition. The forage source significantly affected the alpha-diversity indices and bacteriome biomarkers linked to the feed efficiency and ruminal fermentation. Differences in the backfat thickness and meat yield index were noted, with alpha-diversity indices correlating with carcass traits. The phylum Planctomycetota, especially the family Thermoguttaceae, was linked to nitrogen fixation in high-protein diets like IRS, while the genus Limimorpha emerged as a biomarker for the meat yield. These findings highlight the importance of forage selection during late fattening to optimize beef production, considering diet and bacteriome shifts. Full article
(This article belongs to the Section Virology)
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20 pages, 2593 KiB  
Article
Assessing the Multifaceted Tradeoffs of Agricultural Conservation Practices on Ecosystem Services in the Midwest U.S.
by Amit P. Timilsina, Garrett Steinbeck, Ajay Shah and Sami Khanal
Sustainability 2024, 16(13), 5622; https://doi.org/10.3390/su16135622 - 30 Jun 2024
Viewed by 1612
Abstract
A comprehensive understanding of the potential effects of conservation practices on soil health, crop productivity, and greenhouse gas (GHG) emissions remains elusive, despite extensive research. Thus, the DeNitrification–DeComposition (DNDC) model was employed to evaluate the impact of eleven commonly practiced management scenarios on [...] Read more.
A comprehensive understanding of the potential effects of conservation practices on soil health, crop productivity, and greenhouse gas (GHG) emissions remains elusive, despite extensive research. Thus, the DeNitrification–DeComposition (DNDC) model was employed to evaluate the impact of eleven commonly practiced management scenarios on ecosystem services in the Western Lake Erie Basin, USA, from 1998–2020. Out of eleven scenarios, eight were focused on corn–soybean rotations with varied nitrogen application timing (50% before planting and 50% at either fall or spring during or after planting), or nitrogen source (dairy slurry or synthetic fertilizer (SF)), or tillage practices (conventional, no-till), or cereal rye (CR) in rotation. Remaining scenarios involved rotations with silage corn (SC), winter crops (CR or winter wheat), and alfalfa. The silage corn with winter crop and four years of alfalfa rotation demonstrated enhanced ecosystem services compared to equivalent scenario with three years of alfalfa. Applying half the total nitrogen to corn through SF during or after spring-planted corn increased yield and soil organic carbon (SOC) sequestration while raising global warming potential (GWP) than fall-applied nitrogen. The no-till practice offered environmental benefits with lower GWP and higher SOC sequestration, while resulting in lower yield than conventional tillage. The incorporation of CR into corn–soybean rotations enhanced carbon sequestration, increased GHG emissions, improved corn yield, and lowered soybean yield. Substituting SF with manure for corn production improved corn yield under conventional tillage and increased SOC while increasing GWP under both tillage conditions. While the role of conservation practices varies by site, this study’s findings aid in prioritizing practices by evaluating tradeoffs among a range of ecosystem services. Full article
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19 pages, 841 KiB  
Article
The Biocontrol of Plant Pathogenic Fungi by Selected Lactic Acid Bacteria: From Laboratory to Field Study
by Romuald Gwiazdowski, Krzysztof Kubiak, Krzysztof Juś, Katarzyna Marchwińska and Daniela Gwiazdowska
Agriculture 2024, 14(1), 61; https://doi.org/10.3390/agriculture14010061 - 28 Dec 2023
Cited by 7 | Viewed by 3729
Abstract
Plant diseases caused by pathogenic fungi generate large losses in crops and pose a threat to human and animal health. Since the European Green Deal put a strong emphasis on the need to reduce the use of chemical plant protection, interest in biological [...] Read more.
Plant diseases caused by pathogenic fungi generate large losses in crops and pose a threat to human and animal health. Since the European Green Deal put a strong emphasis on the need to reduce the use of chemical plant protection, interest in biological control has been growing. The present study aimed to investigate the efficacy of lactic acid bacteria (LAB) isolated from silages in the control of pathogenic fungi through in vitro, mini-plot, and field experiments. The tested LAB showed antifungal activity in vitro towards strains from the Fusarium, Alternaria, Rhizoctonia, Colletotrichum, and Sclerotinia genera; however, only five strains reached an activity ≥ 400 AU/mL towards all pathogenic fungi. The selected strains demonstrated high efficacy in reducing disease symptoms in plants in the mini-plot and field experiments. In the mini-plot experiment, stem smut of rye and wheat common bunt were reduced in the range 34.5–94.7% and 24.8–99.6%, respectively. In the field experiments, the efficacy of LAB in the control of rye and wheat disease differed and reached over 90% in some trials. The effectiveness of LAB in the control of seedling blight did not exceed 70%. A significant increase in yield (from 42.86 to 195.65%) was observed mainly in wheat cultivation. The increase in rye yield was observed only in chosen trials. No phytotoxicity was observed. The results indicate the potential possibilities of using LAB as a biocontrol agent. Full article
(This article belongs to the Special Issue Identification and Management of Fungal Plant Pathogens)
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26 pages, 6101 KiB  
Article
Determining Factors Affecting the Soil Water Content and Yield of Selected Crops in a Field Experiment with a Rainout Shelter and a Control Plot in the Czech Republic
by Sabina Thaler, Eva Pohankova, Josef Eitzinger, Petr Hlavinka, Matěj Orság, Vojtěch Lukas, Martin Brtnický, Pavel Růžek, Jana Šimečková, Tomáš Ghisi, Jakub Bohuslav, Karel Klem and Mirek Trnka
Agriculture 2023, 13(7), 1315; https://doi.org/10.3390/agriculture13071315 - 27 Jun 2023
Cited by 3 | Viewed by 2500
Abstract
To investigate the different responses of crops to drought stress under field conditions of Central European Climate for selected crop rotations, a field experiment was conducted at a test site in the Czech Republic from 2014 to 2021. Depending on the crop, rainout [...] Read more.
To investigate the different responses of crops to drought stress under field conditions of Central European Climate for selected crop rotations, a field experiment was conducted at a test site in the Czech Republic from 2014 to 2021. Depending on the crop, rainout shelters were placed in late spring and early summer to study the effects of drought in the final stages of crop development. Due to these rainout shelters and the associated lower water availability for the crops during the summer, a reduction in leaf area index, biomass and yield was observed. For example, a yield decrease of more than 30% was observed for spring barley, winter rape and winter wheat compared to conditions without rainout shelters. The reduction was 25% and 18% for winter rye and silage maize, respectively, under rainout shelters. Soil moisture played a significant role in yield, where a predictive model based on monthly soil moisture explained up to 79% (winter rape) of the yield variance. Full article
(This article belongs to the Section Crop Production)
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14 pages, 5694 KiB  
Article
Dual-Purpose Rye, Wheat, and Triticale Cover Crops Offer Increased Forage Production and Nutrient Management but Demonstrate Nitrogen Immobilization Dynamics
by Samantha Glaze-Corcoran, Alexandra Smychcovich and Masoud Hashemi
Agronomy 2023, 13(6), 1517; https://doi.org/10.3390/agronomy13061517 - 31 May 2023
Viewed by 2330
Abstract
Dual-purpose cover crops (DPCCs) are gaining popularity for their potential to provide additional forage, while also providing significant ecosystem services. In the Northeastern United States, DPCCs can be incorporated into corn silage (Zea mays L.) production, increasing the environmental sustainability and economic [...] Read more.
Dual-purpose cover crops (DPCCs) are gaining popularity for their potential to provide additional forage, while also providing significant ecosystem services. In the Northeastern United States, DPCCs can be incorporated into corn silage (Zea mays L.) production, increasing the environmental sustainability and economic resiliency of dairy systems. In a three-year field study, rye (Secale cereale L.), wheat (Triticum aestivum), and triticale (xTriticosecale) DPCCs provided an average of 4.1 Mg ha−1 of forage, without impacting subsequent corn silage yield. The relative feed values of triticale and wheat were 120 and 122, respectively, significantly greater than that of rye at 109. DPCCs removed 60 kg ha−1 of nitrogen (N) and 20 kg ha−1 of phosphorus (P) on average at harvest; this removal is important for nutrient management in manured systems with high P levels. The results of this experiment suggested that in addition to capturing nutrients from the fall manure application, DPCCs captured nutrients already present in the soil. The DPCC residue left in the field after harvest represented 46% of the total plant biomass, and returned 1.6 Mg ha−1 of carbon. Decomposition trends of DPCCs demonstrated nitrogen immobilization dynamics. Twenty percent of all the residual nitrogen was released in the first week after termination. The residual biomass continued to decompose, but the nitrogen decomposition was arrested. While, in this study, corn yields were not impeded, our findings demonstrated the potential to affect the fertility needs of corn in a multi-year rotation. Full article
(This article belongs to the Special Issue The Impact of Intercropping on Efficiency of Land and Fertilizer Use)
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28 pages, 6197 KiB  
Article
Management Effect on the Weed Control Efficiency in Double Cropping Systems
by Fruzsina Schmidt, Herwart Böhm, Rüdiger Graß, Michael Wachendorf and Hans-Peter Piepho
Agronomy 2023, 13(2), 467; https://doi.org/10.3390/agronomy13020467 - 4 Feb 2023
Cited by 1 | Viewed by 2526
Abstract
There are often negative side-effects associated with the traditional (silage) maize cropping system related to the unprotected soil surface. Reducing soil disturbance could enhance system sustainability. Yet, increased weed pressure and decreased nitrogen availability, particularly in organic agriculture, may limit the implementation of [...] Read more.
There are often negative side-effects associated with the traditional (silage) maize cropping system related to the unprotected soil surface. Reducing soil disturbance could enhance system sustainability. Yet, increased weed pressure and decreased nitrogen availability, particularly in organic agriculture, may limit the implementation of alternative management methods. Therefore, a field experiment was conducted at two distinct locations to evaluate the weed control efficiency of 18 organically managed silage maize cropping systems. Examined parameters were relative weed groundcover (GCweed) and its correlation with maize dry matter yield (DMY), relative proportion of dominant weed species (DWS) and their groups by life form (DWSgroup). Treatment factors comprised first crop (FC—winter pea, hairy vetch, and their mixtures with rye, control (sole silage maize cropping system—SCS)), management—incorporating FC use and tillage (double cropping system no-till (DCS NT), double cropping system reduced till (DCS RT), double cropped, mulched system (DCMS Roll) and SCS control), fertilization, mechanical weed control and row width (75 cm and 50 cm). The variation among environments was high, but similar patterns occurred across locations: Generally low GCweed occurred (below 28%) and, therefore, typically no correlation to maize DMY was observed. The number of crops (system), system:management and occasionally management:FC (group) influenced GCweed and DWS(group). Row width had inconsistent and/or marginal effects. Results suggest differences related to the successful inclusion of DCS and DCMS into the rotation, and to the altered soil conditions, additional physical destruction by shallow tillage operations, especially in the early season, which possibly acts through soil thermal and chemical properties, as well as light conditions. DCS RT could successfully reduce GCweed below 5%, whereas DCS NT and particularly DCMS (Mix) suffered from inadequate FC management. Improvements in DCMS may comprise the use of earlier maturing legumes, especially hairy vetch varieties, further reduction/omission of the cereal companion in the mixture and/or more destructive termination of the FC. Full article
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17 pages, 2007 KiB  
Article
Effects of Cutting Stages and Additives on the Fermentation Quality of Triticale, Rye and Oat Silage in Qinghai-Tibet Plateau
by Jun Ma, Hanling Dai, Hancheng Liu and Wenhua Du
Agronomy 2022, 12(12), 3113; https://doi.org/10.3390/agronomy12123113 - 8 Dec 2022
Cited by 7 | Viewed by 1985
Abstract
The Qinghai–Tibet Plateau is sparsely populated and has vast grassland, which plays an important role in the development of animal husbandry. However, during the forage cutting season, frequent rainfall and low temperatures are consistently experienced, which makes it extremely difficult to produce quality [...] Read more.
The Qinghai–Tibet Plateau is sparsely populated and has vast grassland, which plays an important role in the development of animal husbandry. However, during the forage cutting season, frequent rainfall and low temperatures are consistently experienced, which makes it extremely difficult to produce quality hay. The best way to process hay is to produce silages. In this experiment, dry matter yield and silage fermentation quality of dominant annual forages, namely triticale, rye and oat, with Sila-Max and Sila-Mix lactic acid bacteria additives at the five cutting stages, i.e., heading, flowering, grouting, milky and dough stages, were determined. Triticale at the dough stage had the highest dry matter yield among the three forages at the five cutting stages. The optimum harvesting time for triticale, rye and oat to produce quality silage in the Qinghai–Tibet alpine area was the milky stage. Sila-Max lactic acid bacteria additives could significantly improve the fermentation qualities of triticale, rye and oat silages, but the fermentation effect of Sila-Mix on the three silages was not significant. The triticale variety ‘Gannong No.2’ is the best raw material to produce quality silages in the Qinghai–Tibet alpine area. Overall, quality silage could be made in the Qinghai–Tibet alpine area while using the triticale variety ‘Gannong No.2’ as the raw material, cutting it at the milky stage and adding Sila-Max as the lactic acid bacteria additive. Full article
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23 pages, 3714 KiB  
Article
Management Effects on the Performance of Double Cropping Systems—Results from a Multi-Site Experiment
by Fruzsina Schmidt, Herwart Böhm, Hans-Peter Piepho, Peer Urbatzka, Michael Wachendorf and Rüdiger Graß
Agronomy 2022, 12(9), 2104; https://doi.org/10.3390/agronomy12092104 - 4 Sep 2022
Cited by 3 | Viewed by 2454
Abstract
Traditional (silage) maize production often has negative side-effects related to unprotected soil surface. There are several possibilities to enhance system sustainability through reducing soil disturbance. However, implementation may be hindered due to reduced nitrogen availability and increased weed infestation, especially in organic agriculture. [...] Read more.
Traditional (silage) maize production often has negative side-effects related to unprotected soil surface. There are several possibilities to enhance system sustainability through reducing soil disturbance. However, implementation may be hindered due to reduced nitrogen availability and increased weed infestation, especially in organic agriculture. A field experiment to evaluate yield potential of 18 silage maize cropping systems under organic management was conducted at three distinct locations. Examined parameters were first crop, maize and total harvested dry matter yield (DMY), and maize dry matter content (DMC). Treatment factors included first crop (FC—winter pea, hairy vetch, and their mixtures with rye, control (SCS), management—incorporating FC use and tillage (double cropping system no-till (DCS NT), double cropping system reduced till (DCS RT), double cropped, mulched system terminated with roller-crimper (DCMS Roll), SCS control), fertilization, mechanical weed control—and row width (75 cm, 50 cm). A high variation among environments occurred, but similar patterns manifested across locations: Number of crops in the rotation had a high influence, followed by management and FC. Row width had only marginal and inconsistent effect. FC mixtures generally yielded higher than pure legumes. Maize DMY in DCS, DCMS was lower than or comparable to SCS. Maize DMC were environment-specifically below acceptable range, especially under DCMS. Total harvested DMY in DCS were similar to or greater than SCS. Results suggest differences from the optimization of farming operations for one (SCS) or two crops (DCS, DCMS) with strong effects at early maize development and on the length of season. FC use and tillage factors possibly altered the soil water, temperature, and mineralization dynamics, resulting in modified maize growth. DCS RT and DCMS Pure performed with the best maize yields, improved soil protection, and tillage reduction in the silage maize part of the rotation under organic management. However, alternative management systems, especially under DCS NT and DCMS (Mix) with studied maize maturity classes are less suited, particularly in cool and wet spring conditions, because of a potentially slower development of FC, a later establishment of maize plants and therefore, a shorter growing season for the maize crop. Full article
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30 pages, 8797 KiB  
Article
Effects of Organic Maize Cropping Systems on Nitrogen Balances and Nitrous Oxide Emissions
by Felizitas Winkhart, Thomas Mösl, Harald Schmid and Kurt-Jürgen Hülsbergen
Agriculture 2022, 12(7), 907; https://doi.org/10.3390/agriculture12070907 - 22 Jun 2022
Cited by 13 | Viewed by 3097
Abstract
Silage maize cultivation is gaining importance in organic farming, and thus its environmental and climate impacts. The effects of digestate fertilization in combination with different catch crops and tillage intensities in maize cultivation are investigated in a long-term field experiment in southern Germany. [...] Read more.
Silage maize cultivation is gaining importance in organic farming, and thus its environmental and climate impacts. The effects of digestate fertilization in combination with different catch crops and tillage intensities in maize cultivation are investigated in a long-term field experiment in southern Germany. The tested variants are (a) maize after winter rye, plowed, unfertilized and (b) fertilized with biogas digestate, (c) maize after legume-rich cover crop mixture, mulch seeding, fertilized with digestate, and (d) maize in a white clover living mulch system, fertilized with digestate. Over three years (2019 to 2021), crop yields and N balance were analyzed, N2O emissions were measured in high temporal resolution using the closed chamber method, and soil moisture, ammonium, and nitrate contents were continuously determined. Maize dry matter yields ranged from 4.2 Mg ha−1 (variant a, 2021) to 24.4 Mg ha−1 (variant c, 2020) depending on cropping intensity and annual weather conditions. Despite relatively high nitrogen fertilization with digestate, the N balances were negative or nearly balanced; only in 2021 did the N surplus exceed 100 kg ha−1 (variant b and c) due to low yields. In maize cultivation, relatively low N2O-N emissions (1.0 to 3.2 kg ha−1) were measured in the unfertilized variant (a), and very high emissions in variant b (5.6 to 19.0 kg ha−1). The sometimes extremely high N2O emissions are also due to soil and climatic conditions (high denitrification potential). The experimental results show that cover crops, living mulch, and reduced tillage intensity in silage maize cultivation can reduce N2O emissions, improve nitrogen balance and increase maize yields. Full article
(This article belongs to the Special Issue Strategies for Nitrous Oxide Emission Mitigation in Agrosystems)
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11 pages, 601 KiB  
Article
Microbiological and Toxicological Evaluation of Fermented Forages
by Cintia Adácsi, Szilvia Kovács, István Pócsi, Zoltán Győri, Zsuzsanna Dombrádi and Tünde Pusztahelyi
Agriculture 2022, 12(3), 421; https://doi.org/10.3390/agriculture12030421 - 16 Mar 2022
Cited by 10 | Viewed by 3117
Abstract
Several feed preservation methods can ensure lower mycotoxin contamination levels enter the food life cycle, and a relatively common wet preservation method of forage plant materials is fermentation. This study aimed to characterize the microbiological state and mycotoxin contamination of fermented silages and [...] Read more.
Several feed preservation methods can ensure lower mycotoxin contamination levels enter the food life cycle, and a relatively common wet preservation method of forage plant materials is fermentation. This study aimed to characterize the microbiological state and mycotoxin contamination of fermented silages and haylages (corn, alfalfa, rye, and triticale), their main microbiota, and isolation of bacteria with mycotoxin resistance. Bacteria that remain viable throughout the fermentation process and possess high mycotoxin resistance can have a biotechnological benefit. Lactic acid bacteria, primarily found in corn silage, were Lactiplantibacillus plantarum isolates. Meanwhile, a high percentage of alfalfa silage and haylage was characterized by Lactiplantibacillus pentosus. In rye silage and haylage samples, Pediococci were the typical bacteria. Bacterial isolates were characterized by deoxynivalenol and zearalenon resistance. Some of them were sensitive to aflatoxin B1, while ochratoxin A caused 33–86% growth inhibition of the cultures. The mycotoxin resistant organisms are under further research, aiming for mycotoxin elimination in feed. Full article
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11 pages, 259 KiB  
Article
Changes in the In Vitro Ruminal Fermentation of Diets for Dairy Cows Based on Selected Sorghum Cultivars Compared to Maize, Rye and Grass Silage
by Ewa Pecka-Kiełb, Dorota Miśta, Bożena Króliczewska, Andrzej Zachwieja, Maja Słupczyńska, Barbara Król and Józef Sowiński
Agriculture 2021, 11(6), 492; https://doi.org/10.3390/agriculture11060492 - 26 May 2021
Cited by 4 | Viewed by 3643
Abstract
An in vitro experiment was conducted to determine the impact of silage produced from selected varieties of sorghum on the microbial fermentation profile of cows’ ruminal fluid. To determine the main microbial fermentation products, ruminal fluid samples were obtained from Polish Holstein–Friesian cows. [...] Read more.
An in vitro experiment was conducted to determine the impact of silage produced from selected varieties of sorghum on the microbial fermentation profile of cows’ ruminal fluid. To determine the main microbial fermentation products, ruminal fluid samples were obtained from Polish Holstein–Friesian cows. Serum bottles were filled with 80 mL of ruminal samples, and 1 g of one of the following substrates was added: corn silage (CS), grass silage (GS), rye silage (RS), sorghum silage (sweet) (SS1), sorghum silage (grain) (SS2) or sorghum silage (dual-purpose) (SS3). The serum bottles were flushed with CO2 and fermented for 8 and 24 h at 39 °C. After incubation, the obtained gas and rumen fluid were then analysed to determine the methane and volatile fatty acid (VFA) contents using gas chromatography. The use of sorghum silage (SS) resulted in a decrease in the total concentration VFA concentration in the ruminal fluid compared with the use of other silages, especially GS. Moreover, the ruminal fluid contained a lower molar proportion of propionic and butyric acids when SS was used compared with CS. The butyric acid proportion was higher in SS samples than in RS samples. The differences in chemical composition between sorghum varieties did not influence the rumen VFA concentration or profile. A decrease in gas production, but without effects on methanogenesis, was observed when SS was used compared with GS and CS. The analysis demonstrates the physiological processes of fermentation in the rumen, as evidenced by the products of microbial fermentation. The main advantage is that the addition of SS, irrespective of the plant variety, reduced fermentation gas production in the ruminal fluid compared with CS. The silage of the analyzed sorghum varieties may be used in the diets of dairy cows as a substitute for corn and grass silages. Full article
24 pages, 4124 KiB  
Article
Influence of Tillage on the Production Inputs, Outputs, Soil Compaction and GHG Emissions
by Václav Voltr, Jana Wollnerová, Pavel Fuksa and Martin Hruška
Agriculture 2021, 11(5), 456; https://doi.org/10.3390/agriculture11050456 - 18 May 2021
Cited by 20 | Viewed by 4642
Abstract
Fertilizer inputs, crop yields, the composition of technological operations and intensity of treatment with different types of pesticides in both basic approaches were evaluated. A comprehensive comparison of impacts showed that all crops, except sugar beet, achieved better economic and emission parameters of [...] Read more.
Fertilizer inputs, crop yields, the composition of technological operations and intensity of treatment with different types of pesticides in both basic approaches were evaluated. A comprehensive comparison of impacts showed that all crops, except sugar beet, achieved better economic and emission parameters of production based on the evaluation of GHG production by using reduced tillage compared to ploughing. The total reduction of GHG emissions based on CO2eq on average of all crops per ton as a result of the technological processes was 6% using reduced tillage. The most significant CO2eq reductions were achieved for rye and oat (13%), and spring barley (8%). The reduction of crop yields ranges from about 1% (spring barley) to 4% (grain maize). Cost reduction per tone was in the range of 14% (rye) to 2% (silage maize). The energy gain was at reduced tillage improved at poppy (8%), rape (4%), oat (3%), rye (3%) and spring and winter barley (2%). From the evaluation of the number of chemical protections, a lower number of total protections was found at the no-till system for most crops. In most cases, there was no difference between ploughing and reduced tillage. There was an increase in specific nitrogen consumption per tonne of production in marginal areas, reduced tillage led to an increase in soil compaction. Full article
(This article belongs to the Special Issue Cropping Systems: Implications on Climate and Environment)
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11 pages, 224 KiB  
Article
Application of Selected Inoculant Producing Antifungal and Fibrinolytic Substances on Rye Silage with Different Wilting Time
by Seong-Shin Lee, Jeong-Seok Choi, Dimas Hand Vidya Paradhipta, Young-Ho Joo, Hyuk-Jun Lee, Hyeon-Tak Noh, Dong-Hyeon Kim and Sam-Churl Kim
Processes 2021, 9(5), 879; https://doi.org/10.3390/pr9050879 - 17 May 2021
Cited by 3 | Viewed by 2290
Abstract
This research was conducted to determine the effects of selected inoculant on the silage with different wilting times. The ryes were unwilted or wilted for 12 h. Each rye forage was ensiled for 100 d in quadruplicate with commercial inoculant (Lactobacillus plantarum [...] Read more.
This research was conducted to determine the effects of selected inoculant on the silage with different wilting times. The ryes were unwilted or wilted for 12 h. Each rye forage was ensiled for 100 d in quadruplicate with commercial inoculant (Lactobacillus plantarum sp.; LPT) or selected inoculant (Lactobacillus brevis 100D8 and Leuconostoc holzapfelii 5H4 at 1:1 ratio; MIX). In vitro dry matter digestibility and in vitro neutral detergent fiber digestibility were highest in the unwilted MIX silages (p < 0.05), and the concentration of ruminal acetate was increased in MIX silages (p < 0.001; 61.4% vs. 60.3%) by the increase of neutral detergent fiber digestibility. The concentration of ruminal ammonia-N was increased in wilted silages (p < 0.001; 34.8% vs. 21.1%). The yeast count was lower in the MIX silages than in the LPT silages (p < 0.05) due to a higher concentration of acetate in MIX silages (p < 0.05). Aerobic stability was highest in the wilted MIX silages (p < 0.05). In conclusion, the MIX inoculation increased aerobic stability and improved fiber digestibility. As a result of the wilting process, ammonia-N in silage decreased but ruminal ammonia-N increased. Notably, the wilted silage with applied mixed inoculant had the highest aerobic stability. Full article
(This article belongs to the Special Issue Novel Processes for Development of Fermentation-Based Products)
20 pages, 1344 KiB  
Article
Influence of Soil and Manure Management Practices on Surface Runoff Phosphorus and Nitrogen Loss in a Corn Silage Production System: A Paired Watershed Approach
by Jessica F. Sherman, Eric O. Young, William E. Jokela, Michael D. Casler, Wayne K. Coblentz and Jason Cavadini
Soil Syst. 2021, 5(1), 1; https://doi.org/10.3390/soilsystems5010001 - 29 Dec 2020
Cited by 11 | Viewed by 3837
Abstract
Best management practices (BMPs) can mitigate erosion and nutrient runoff. We evaluated runoff losses for silage corn management systems using paired watershed fields in central Wisconsin. A two-year calibration period of fall-applied liquid dairy manure incorporated with chisel plow tillage (FMT) was followed [...] Read more.
Best management practices (BMPs) can mitigate erosion and nutrient runoff. We evaluated runoff losses for silage corn management systems using paired watershed fields in central Wisconsin. A two-year calibration period of fall-applied liquid dairy manure incorporated with chisel plow tillage (FMT) was followed by a three and a half-year treatment period. During the treatment period FMT was continued on one field, and three different systems on the others: (a) fall-applied manure and chisel tillage plus a vegetative buffer strip (BFMT); (b) a fall rye cover crop with spring manure application and chisel tillage (RSMT), both BMPs; a common system (c) fall manure application with spring chisel tillage (FMST). Year-round runoff monitoring included flow, suspended sediment (SS), total phosphorus (TP), dissolved reactive phosphorus (DRP), ammonium (NH4+-N), nitrate, and total nitrogen (TN). Results showed BFMT reduced runoff SS, TP, and TN concentration and load compared to FMT. The RSMT system reduced concentrations of SS, TP, and TN, but not load because of increased runoff. The FMST practice increased TP, DRP, and NH4+-N loads by 39, 376, and 197%, respectively. While BMPs showed mitigation potential for SS, TN, and TP, none controlled DRP, suggesting additional practices may be needed in manured corn silage fields with high runoff potential. Full article
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