2023, Gadulrab, Khaled, Sidoruk, Pola, Kozłowska, Martyna, Szumacher, Małgorzata, Lechniak, Dorota, Kołodziejski, Paweł Antoni, Pytlewski, Jarosław, Strzałkowska, Nina, Horbańczuk, Jarosław Olav, Jóźwik, Artur, Yanza, Yulianri Rizki, Irawan, Agung, Patra, Amlan Kumar, Cieślak, Adam

Industrial fruit by-products are now being utilized as animal feeds for several reasons. They may substitute the conventional cereal feeds, and also offer economic and environmental benefits. One of the most important industrial fruit by-products is apple pomace, which can be used as a source of energy in the ration of ruminant species, including dairy cattle. The aim of the present study was to evaluate the effect of feeding dried apple pomace to dairy cattle on ruminal fermentation, fatty acid concentration, microbial populations, and methane production. The experiment lasted 64 days and was conducted with 4 cannulated commercial dairy cows. The control animals received a standard diet, while the experimental animals was fed a standard diet supplemented with 150 g/kg DM dried apple pomace. Ruminal fluid samples were collected at three different time intervals. The samples were obtained at 0-, 3-, and 6-h post-feeding. The ruminal fluid was used to assess the ammonia concentration, pH, volatile fatty acids (VFA), long-chain fatty acids (FA), microbial population. A number of ruminal fermentation variables changed as a result of the addition of dried apple pomace to the standard diet. Ruminal pH slightly increased (p < 0.01) while the ammonia concentration decreased (p < 0.01) by 46%. There was a significant decrease in total protozoa count (p < 0.01) and an increase (p < 0.01) in total volatile fatty acids. In addition, there was a decline in methane emission (p = 0.05) by 8% due to dried apple pomace feeding. To sum up, this study demonstrated a positive effect of 150 g/kg DM dietary dried apple pomace on ruminal metabolism including a decrease in ammonia concentration and methane emissions, alongside with an increase in total ruminal VFAs, higher nutrient digestibility, and milk production. Also, beneficial changes to the ruminal fatty acid profile resulting from reduced biohydrogenation were observed although a decreased content of the C18:2 cis 9 trans 11 isomer was also noticed. The dietary inclusion of DAP can serve as a valuable, sustainable, and environmentally friendly dietary component for dairy cows.

2025, Olorunlowu, Segun, Sidoruk, Pola, Sznajder, Julia, Szczesny, Jakub, Cieślak, Dorota Marta, Pawlak, Piotr, Ryczek, Marcin, Huang, Haihao, Li, Lingyan, Irawan, Agung, Komisarek, Jolanta, Szumacher, Małgorzata, Cieślak, Adam

Ensiling grass with microbial inoculants is a promising strategy to enhance forage quality, animal performance, and environmental sustainability. This study evaluated the effects of a multi-strain inoculant (Lactobacillus plantarum, L. buchneri, Propionibacterium acidipropionici, and P. thoeni) on silage fermentation, nutrient digestibility, milk production, methane emissions, and rumen microbiota in dairy cows. In a 2 × 2 crossover design, 24 lactating Polish Holstein–Friesians were fed total mixed rations differing only in grass silage treated with or without inoculant. Inoculated silage had lower pH (4.56 vs. 5.06; p = 0.02) and higher crude protein (129 vs. 111 g/kgDM; p < 0.05). Cows fed inoculated silage showed higher ruminal propionate (28.3 vs. 26.3 mM; p = 0.03), reduced ammonia (7.61 vs. 8.67 mM; p = 0.02), and fewer protozoa (1.21 vs. 1.66 × 105/mL; p = 0.03). Nutrient digestibility improved (p < 0.05), while methane emissions declined both per cow (368 vs. 397 g/d; p = 0.01) and per kgDMI (15.1 vs. 16.5; p = 0.01). Milk yield increased (p = 0.04), and the fatty acid profile improved. Our study revealed that cows fed inoculated silage had higher nutrient digestibility, lower methane emissions, and microbial shifts in the rumen detected by 16S rRNA sequencing (p < 0.05).

2025, Gao, Min, Irawan, Agung, El-Sherbiny, Mohamed, Szumacher, Małgorzata, Cieślak, Adam, Setiawan, Muhammad Ariana, Jallal, Hassan, Fusaro, Isa, Jayanegara, Anuraga, Yanza, Yulianri Rizki, Liu, Yongbin

Brassica-derived feeds have been recognized for their economic and environmental benefits in ruminant nutrition. However, their utilization is constrained by the presence of glucosinolates and sulfur-containing compounds that exhibit both beneficial and adverse effects. This meta-analysis included 36 studies that evaluated the impact of glucosinolate intake on ruminant performance, nutrient digestibility, milk composition, and methane emissions. This analysis, conducted in accordance with PRISMA guidelines, revealed that glucosinolate supplementation resulted in a quadratic increase in milk urea nitrogen concentration (p = 0.017). Additionally, significant interactions between glucosinolate level and source influenced crude protein digestibility (p = 0.026). Milk composition parameters, including 4% fat-corrected milk, energy-corrected milk, milk protein, and lactose proportions, were significantly affected (p < 0.05). Furthermore, methane emissions (g/kg DMI) decreased quadratically with increasing glucosinolate intake (p = 0.003), with additional interactions observed between dietary treatments and animal species (p = 0.029). Propionate and isobutyrate concentrations increased in a quadratic and linear manner, respectively (p < 0.05). These findings suggest that glucosinolate-containing feed can enhance nutrient utilization and mitigate methane emissions in ruminants. However, the magnitude of these effects is dependent on the glucosinolate dosage, source, animal species, and dietary composition, necessitating further research to optimize their use in ruminant nutrition.

2025, Kołodziejski, Paweł Antoni, Leciejewska, Natalia, Sassek, Maciej, Nogowski, Leszek, Szumacher, Małgorzata, Mikuła, Robert, Gogulski, Maciej, Pruszyńska-Oszmałek, Ewa

2023, Gao, Min, Cieślak, Adam, Huang, Haihao, Gogulski, Maciej, Petrič, Daniel, Ruska, Diāna, Patra, Amlan Kumar, El-Sherbiny, Mohamed, Szumacher, Małgorzata

2025, Hassan, M.U., Sidoruk, P., Lechniak, Dorota, Szumacher, Małgorzata Joanna, Bocianowski, Jan, Ślusarczyk, S., Hargreaves, P.R., Ruska, D., Dorbe, A., Kreismane, Dz., Klumpp, K., Bloor, J., Rees, R.M., Kuipers, A., Galama, P., Váradyová, Z., Čobanová, K., Cieślak, Adam

2021, DAMIAN JÓZEFIAK, ANITA ZAWORSKA, MAŁGORZATA KASPROWICZ-POTOCKA, ADAM CIEŚLAK, MAŁGORZATA SZUMACHER-STRABEL, JAN JANKOWSKI, EWA SAWOSZ-CHWALIBÓG, ROMUALD ZABIELSKI, SYLWESTER ŚWIĄTKIEWICZ, ANNA ARCZEWSKA-WŁOSEK, ARTUR JÓŹWIK, NINA STRZAŁKOWSKA

2024, Gao, Min, El-Sherbiny, Mohamed, Szumacher, Małgorzata, Cieślak, Adam, Yanza, Yulianri R., Irawan, Agung, Xie, Biao, Cao, Zhi-jun, Fusaro, Isa, Jalal, Hassan, Abd El Tawab, Ahmed M., Liu, Yong-bin

There has been a growing interest in using insects as sustainable protein sources for ruminant feed, such as the adults of the two-spotted cricket (Gryllus bimaculatus), larvae of the mealworm beetle (Tenebrio molitor), black soldier fly (Hermetia illucens), and pupae of the silkworm (Bombyx mori). The advantages of these insects over other plant materials lie in their elevated levels of crude protein and fat. However, this interest lacks a comprehensive understanding of the impact of insects on the ruminal fermentation processes, including digestibility and gas production, as well as the impact on animal performance and related health aspects. This review offers a comprehensive analysis of ruminal fermentation indices across diverse insect species. Employing descriptive and meta-analysis methodologies, we examined the impact of incorporating insect-derived meals in ruminants’ diets. Moreover, we evaluated the growth performance and biochemical parameters of blood in ruminants when species such as Tenebrio molitor, Hermetia illucens, Oriental Hornet (Vespa Orientalis), and Bombyx mori were incorporated into ruminants’ diets. The meta-analysis was performed on a limited dataset of 14 in vitro and eight in vivo trials, investigating insect meal as a potential feed source. A comparison is drawn between these insect-based feeds and conventional dietary sources such as soybean meal, alfalfa hay, and commercial concentrate diets. Our meta-analysis revealed that incorporating Gryllus bimaculatus and Hermetia illucens to partially replace protein sources in ruminants’ diet did not adversely affect digestibility, ruminal fermentation, and ruminant production, supporting the feasibility as a feed ingredient for ruminant animals. In addition, the oriental hornet showed an overall higher outcome on the final BW, ADG, digestibility, and volatile fatty acid (VFA) production, suggesting the promising effect of this insect for future use in ruminants. The data also indicates that dietary insect inclusion levels should not exceed 30% (DM basis) to achieve an optimal ruminal fermentation profile. Furthermore, it offers comparative insights into the nutritional value of these insects, which warrant further investigation at the in vivo level. Ultimately, the existing understanding of the nutritional utilization potential of these insects by ruminants, particularly concerning macro- and micronutrients, is evaluated and revealed to be significantly constrained.

2021, DAMIAN JÓZEFIAK, ANITA ZAWORSKA, MAŁGORZATA KASPROWICZ-POTOCKA, ADAM CIEŚLAK, MAŁGORZATA SZUMACHER-STRABEL, JAN JANKOWSKI, EWA SAWOSZ-CHWALIBÓG, ROMUALD ZABIELSKI, SYLWESTER ŚWIĄTKIEWICZ, ANNA ARCZEWSKA-WŁOSEK, ARTUR JÓŹWIK, NINA STRZAŁKOWSKA

2022, DAMIAN JÓZEFIAK, ANITA ZAWORSKA-ZAKRZEWSKA, MAŁGORZATA KASPROWICZ-POTOCKA, ADAM CIEŚLAK, MAŁGORZATA SZUMACHER, JAN JANKOWSKI, EWA SAWOSZ-CHWALIBÓG, SYLWESTER ŚWIĄTKIEWICZ, ANNA ARCZEWSKA-WŁOSEK, ARTUR JÓŹWIK

2024, Główny, Dorota, Sowińska, Natalia, Cieślak, Adam, Gogulski, Maciej, Konieczny, Kacper, Szumacher, Małgorzata

Raw meat-based diets for pet nutrition are becoming increasingly popular. The percentage of meat content, composition of nutrients, and amount of additives started to play an important role in the recipe of a given food. However, the use of healthier and unprocessed food must also be balanced with the animal’s specific needs based on its anatomy, physiology, and behavior. There are many potential advantages and disadvantages of a biologically appropriate raw food (BARF) diet, and all of them should be considered before switching to this approach. Raw meat is considered a diet closest to nature and least processed. However, raw diets threaten pet health because of the potential for nutrient imbalances. The choice of raw meat in pets’ everyday diet should be supported by the veterinarian’s medical decision and preferably also with nutritionist help. Growing animals require a specific Ca:P ratio in their diet, which may be improper in raw meat. For cats, taurine levels must be carefully checked. In addition, an imbalanced raw-meat diet can be the cause of poor semen quality in males. Females are prone to inhibition of the estrus cycle, especially due to hyperthyroidism. Exogenous thyroid hormone intake is a real concern when feeding a neck/head meat with thyroid glands. There is also a possibility of bacterial or parasitic presence in raw meat. The present paper aims to summarize the current state of knowledge about the benefits and threats of eating a raw meat diet for the health concerns of companion animals.

2025, Grzelka, Kajetan, Matkowski, Adam, Chodaczek, Grzegorz, Jaśpińska, Joanna, Pawlikowska-Bartosz, Anna, Słupski, Wojciech, Lechniak Dorota, Szumacher, Małgorzata, Olorunlowu, Segun, Szulc, Karolina, Cieślak, Adam, Ślusarczyk, Sylwester

This study aims to explore the effect of pulsed electric field (PEF) treatment as a method very likely to result in reversible electroporation of Scutellaria baicalensis Georgi underground organs, resulting in increased mass transfer and secondary metabolites leakage. PEF treatment with previously established empirically tailored parameters [E = 0.3 kV/cm (U = 3 kV, d = 10 cm), t = 50 µs, N = 33 f = 1 Hz] was applied 1–3 times to S. baicalensis roots submerged in four different Natural Deep Eutectic Solvents (NADES) media (1—choline chloride/xylose (1:2) + 30% water, 2—choline chloride/glucose (1:2) + 30% water, 3—choline chloride/ethylene glycol (1:2), and 4—tap water (EC = 0.7 mS/cm). Confocal microscopy was utilized to visualize the impact of PEF treatment on the root cells in situ. As a result of plant cell membrane permeabilization, an extract containing major active metabolites was successfully acquired in most media, achieving the best results using medium 1 and repeating the PEF treatment twice (baicalein <LOQ, baicalin 12.85 µg/mL, wogonin 2.15 µg/mL, and wogonoside 3.01 µg/mL). Wogonin concentration in NADES media was on par with the control (plants harvested on the day of the experiment, ultrasound-mediated methanolic extraction, Cwogonin = 2.15 µg/mL). After successful extraction, PEF treatment allowed the plants to continue growing, with the lowest survival rate across treated groups being 60%. Additionally, an enhancement in plant growth parameters (length and fresh mass of the roots) and significant changes in the S. baicalensis root phytochemical profile were also observed.

2025, Sidoruk, Pola, Olorunlowu, Segun, Pawlak, Piotr, Cieślak, Dorota Marta, Sznajder, Julia, Szczesny, Jakub, Komisarek, Jolanta, Leško, Matej, Petrič, Daniel, Ślusarczyk, Sylwester, Lechtanska, Joanna, Komáromyová, Michaela, Patra, Amlan Kumar, Szumacher, Małgorzata, Várady, Marián, Váradyová, Zora, Cieślak, Adam

2023, Mazurkiewicz, Jakub, Sidoruk, Pola, Dach, Jacek, Szumacher, Małgorzata, Lechniak, Dorota, Galama, Paul, Kuipers, Abele, Antkowiak, Ireneusz Ryszard, Cieślak, Adam

Currently, there is an ongoing intensive search for solutions that would effectively reduce greenhouse gas emissions (mainly methane) into the environment. From a practical point of view, it is important to reduce methane emissions from cows in such a way as to simultaneously trim emissions from the digestive system and increase its potential production from feces, which is intended as a substrate used in biogas plants. Such a solution would not only lower animal-based methane emissions but would also enable the production of fuel (in chemical form) with a high yield of methane from biogas, which would boost the economic benefits and reduce the use of fossil fuels. We tested the effect of administering an essential oil blend consisting of 5.5% oils and fats on methane and biogas production from dairy cow feces during fermentation. Three subsequent series (control and experimental) were conducted in dairy cows fed a total mixed ration (TMR) rich in brewer’s cereals and beet pulp, with 20% dry matter (DM) of the total diet. Cows from the experimental group received 20 g/cow/day of essential oil blend, namely a commercial additive (CA). The study showed that CA can increase the production of methane and biogas from dairy cow feces. It can be concluded that in the experimental groups, approx. 15.2% and 14.4% on a fresh matter basis and 11.7% and 10.9% on a dry matter basis more methane and biogas were generated compared to the control group, respectively. Therefore, it can be assumed that the use of CA in cow nutrition improved dietary digestibility, which increased the efficiency of the use of feces organic matter for biogas production.

2024, Yanza, Yulianri Rizki, Irawan, Agung, Jayanegara, Anuraga, Ramadhani, Fitri, Respati, Adib Norma, Fitri, Ainissya, Hidayat, Cecep, Niderkorn, Vincent, Cieślak, Adam, Szumacher, Małgorzata Joanna, Hidayat, Rahmat, Tanuwiria, Ujang Hidayat

The present meta-analysis aimed to determine the underlying effects of different saponins extracted from different sources on the production performance, milk yield, digestibility, rumen fermentation, blood metabolites, and nitrogen utilization of ruminants. A total of 26 papers comprising 66 in vivo studies (148 data points of dietary treatments) were evaluated in the present study. The databases were statistically analyzed using the mixed model procedure of SAS, where experiments considered random effects and tannin-related factors were treated as fixed effects. Statistical procedures were then continued in comparing different sources of saponin extract through Mixed Model analysis, where experiments were also random factors and sources of saponin extract were fixed factors. The evidence revealed in the present meta-analysis that saponin supplementation of up to 40 g/kg DM appears to have no detrimental impact on feed intake across ruminant types, suggesting that it does not significantly affect diet palatability. However, the results indicated that there are species-specific responses to saponin supplementation, particularly in relation to palatability and nutrient absorption efficiency, with larger ruminants being better able to tolerate the bitterness induced by saponin extracts. Furthermore, the study found that saponin extracts can influence nutrient digestibility and rumen fermentation dynamics, with different effects observed in large and small ruminants. While some saponin extracts can enhance average daily weight gain and milk yield, others can have adverse effects, highlighting the importance of considering both saponin sources and animal physiological condition when developing nutritional strategies. Additionally, optimization of ruminant production by utilizing saponin extracts is necessary to avoid negative health implications, such as increased blood creatinine levels. Different saponin extracts utilization in ruminant nutrition and environmental management, have a distinct understanding associated to their various bioactive properties. However, among the saponin sources, saponin extracted from Quilaja saponaria is more likely to improve large ruminant production performance while maintaining ruminant health and metabolism, but negatively affect small ruminants. Further research is needed to unravel the intricate effects of different saponin sources on ruminant health and productivity, emphasizing the importance of tailored dietary strategies that consider the unique physiological and metabolic characteristics of the target livestock.