2025, Idziak, Robert, Szuba-Adamska, Violetta, Waligóra, Hubert, Sobiech, Łukasz, Grzanka, Monika, Szulc, Piotr

2024, Idziak, Robert, Waligóra, Hubert, Majchrzak, Leszek, Szulc, Piotr

A field study in the years 2017–2019 was carried out to evaluate the impact of novel adjuvant formulations on the efficacy of sulfonylurea and synthetic auxin herbicides. Treatments included nicosulfuron + rimsulfuron + dicamba (N+R+D) at full and reduced rates with three multicomponent (TEST-1, TEST-2, TEST-3) as well as standard (MSO, S) adjuvants. In this greenhouse study, Echinochloa crus-galli seeds were planted and treated with N+R+D at 2–3 leaf stages. The water with the desired pH (4, 7, and 9) for the preparation of the spray liquid was prepared by incorporating citric acid or K3PO4 to either lower or raise the pH of the water. Adjuvant TEST-1 added to the spray liquid at pH 4 increased the effectiveness to 68%, TEST-2 to 81%, and TEST-3 to 80%, compared to 73% and 66% with the MSO and S. The efficacy of N+R+D at pH 7 with TEST-1 increased to 83%, TEST-2 to 82%, and TEST-3 to 77%, but with MSO, it increased to 81%, and 71% with S. Adjuvants TEST-1, TEST-2, and TEST-3 in the liquid at pH 9 increased efficacy to 76 and 80%, compared to 79 and 63% with MSO or S adjuvants. N+R+D applied with TEST-1, TEST-2, and TEST-3 provided greater weed control than herbicides with surfactant (S) and similar or even better than with standard methylated seed oil (MSO) adjuvants. Maize grain yield after herbicide-with-tested-adjuvant application was higher than from an untreated check, and comparable to yield from herbicide-with-MSO treatment, but higher than from S treatment.

2025, Idziak, Robert, Szuba-Adamska, Violetta, Waligóra, Hubert, Szulc, Piotr

The study aimed to evaluate the effects of methyl esters adjuvant, pH reducer, and zinc sulfate on the physicochemical properties (contact angle, surface tension) of a spray liquid and a bromoxynil + terbuthylazine + nicosulfuron mixture’s efficacy. Cockspur (Echinochloa crus-galli L.) was used as the test plant. The placement of any adjuvant in the spray liquid affected the reduction in contact angle, with zinc sulfate reducing it from 75.9 to 66.3°, methyl esters adjuvant from 61.8 to 47.1°, pH reducer from 58.3 to 47.0°, zinc sulfate + methyl esters adjuvant from 64.9 to 58.4°, and zinc sulfate + pH reducer from 57.1 to 44.6°. A decrease in contact angle was found with a reduction in herbicide doses, from 65.6 to 59.0°. The highest pH of the spray liquid with herbicides was found when the methyl esters adjuvant was added to the liquid (6.82–7.17), followed by 6.43–6.80 when zinc sulfate was added, and 6.05–6.30 for zinc sulfate with methyl esters adjuvant. The inclusion of adjuvant pH reducer very strongly reduced the liquid reaction to 3.28–3.60, and it was reduced to 2.76–2.90 in the presence of zinc sulfate. Bromoxynil + terbuthylazine + nicosulfuron mixtures applied with methyl esters adjuvant and zinc sulfate with pH reducer showed the highest efficacy (85–98% and 82–96%), and the efficacy was 64–81% when methyl esters adjuvant with zinc sulfate were used. The effect of the herbicide mixture with only zinc sulfate was noticeably weaker (40–81%), and it was very weak (13–43%) in the presence of adjuvant pH reducer only. On the basis of the ED50 values, the most favorable mixtures were those containing methyl esters adjuvant, methyl esters adjuvant + zinc sulfate and pH reducer + zinc sulfate in addition to the herbicides. Research has indicated that zinc sulfate could be used as an adjuvant, and will support not only the action of herbicides, but also the development of maize plants.

2024, Bereś, Paweł, Strażyński, Przemysław, Mrówczyński, Marek, Szulc, Piotr, Waligóra, Hubert, Sosnowska, Danuta, Korbas, Marek, Węgorek, Paweł, Kierzek, Roman, Drzewiecki, Sławomir, Danielewicz, Jakub, Zamojska, Joanna, Dworzańska, Daria, Marcinkowska, Katarzyna, Warzecha, Robert, Gorzała, Grzegorz, Jajor, Ewa, Horoszkiewicz-Janka, Joanna, Siekaniec, Łukasz, Królikowski, Kamil, Litka, Marek, Krówczyńska, Arleta, Breś, Paweł, Strażyński, Przemysław, Mrówczyński, Marek

2024, Bocianowski, Jan, Waligóra, Hubert, Majchrzak, Leszek

AbstractThis study investigated genotype × environment interactions for the stability of expression of four productivity traits (cobs yield, cobs I class trade share, lend of cobs and fulfilment of cobs) of sweet maize hybrids (Zea mays L.). The additive main effects and multiplicative interaction (AMMI) model was employed to assess genotype × environment interaction. AMMI stability value was used to evaluate both stability and genotype. The genotype selection index was calculated for each hybrid, incorporating both the average trait value and the stability index. Ten sweet maize hybrids were evaluated: Golda, GSS 1453, GSS 3071, GSS 5829, GSS 8529, Overland, Noa, Shinerock, Sindon, and Tessa. Trials were ran conducted over four vegetative seasons at a single location in the Wielkopolska region using replicated field experiments. The AMMI model revealed significant genotypic and environmental effects for all analyzed traits. Based on their superior stability and favorable average trait values, both the Golda cultivar and the GSS 3071 hybrid are recommended for further breeding program inclusion.

2024, Majchrzak, Leszek, Waligóra, Hubert, Zawieja, Bogna, Idziak, Robert, Szulc, Piotr

This paper focuses on the weed species Echinochloa crus-galli, commonly known as barnyardgrass, which is a persistent threat to crop yield and quality, especially in maize (Zea mays) cultivation. It is one of the most problematic weeds in agricultural fields due to its aggressive growth, adaptability to different environmental conditions and prolific seed production. The incidence of Echinochloa crus-galli in maize fields has increased in recent years. This study aims to provide a comprehensive understanding of the characteristics and behavior of Echinochloa crus-galli, and to suggest effective measures to control it. This research on sweetcorn was conducted from 1992 to 2019 at the Research and Education Center Gorzyń, Złotniki branch, which belongs to the Poznań University of Life Sciences. The evaluation of weed infestation was carried out in experiments focusing on chemical weed control in maize. The experiments were designed as a one-factor randomised block design with four field replications. The condition and the degree of weed infestation (number of weeds and fresh weight of weeds) in the control plots was assessed on an annual basis at the end of June and in July. The aim of the study was to evaluate the dynamic changes in the status and extent of barnyardgrass (Echinochloa crus-galli) infestation in maize grown after various other crops in the Wielkopolska region, with a focus on the weather conditions. The study found that barnyardgrass was most likely to occur when maize was sown after winter wheat in a dry and warm year, and least likely when maize was grown in rotation after winter wheat in a cold year with average rainfall. The proportion of barnyardgrass weed mass in the total weed mass was significantly lower after winter rye than after winter wheat, winter oilseed rape and winter triticale. Further research into the biology and ecology of barnyardgrass is key to effectively controlling this weed and safeguarding sweetcorn yields.

2024, Idziak, Robert, Sakowicz, Tomasz, Waligóra, Hubert, Szulc, Piotr, Majchrzak, Leszek, Stachowiak, Barbara, Neumann, Małgorzata

Weed control in maize is usually limited to a single herbicide treatment, but the application of two or more herbicides is associated with many benefits, e.g., increasing the spectrum of control weeds, reducing the risk of damage to crops by using reduced rates of herbicides, limiting their residues in the soil or crop, etc. This field experiment was conducted in the years 2016–2018 to determine whether the split application of soil-applied thiencarbazone-methyl + isoxaflutole and foliar-applied mesotrione + nicosulfuron + rimsulfuron, in reduced rates with adjuvants, can contribute to enhancing herbicide effectiveness and increasing maize yield. Weed control in maize in a split-dose system with a mixture of thiencarbazone-methyl + isoxaflutole at strongly reduced rates with the addition of UAN and the adjuvant Atpolan SoilMaxx or Grounded, and then mesotrione + nicosulfuron + rimsulfuron at strongly reduced rates with UAN and Atpolan SoilMaxx or Actirob 842 EC allowed for great control of weeds. The total amount of substances was slightly higher than in single treatments with adjuvants, but lower than for individual active substances, leading to a reduction in the amount of active substances reaching the environment, while maintaining very high herbicide efficacy.