Your search keyword '"Elke Pawelzik"' showing total 123 results

1. Fast and simultaneous prediction of inner quality parameters on intact mangos by near infrared spectroscopy: Impact of spectra pre-processing on prediction accuracy

Author

Agus Arip Munawar, Hizir, Cut Erika, and Elke Pawelzik

Subjects

NIRS, Prediction, Quality, Fruit, Nutrition. Foods and food supply, TX341-641, Food processing and manufacture, TP368-456

Abstract

Near infrared spectroscopy or known as NIRS has been widely employed in many fields including agriculture, especially for sorting and grading of agricultural products. Spectra pre-processing is one of the main factors affecting model accuracy and prediction capabilities of NIRS. The objective of the present study was to study the impact of different spectra corrections namely mean centering (MC), mean normalization (MN), de-trending (DT), multiplicative scatter correction (MSC), standard normal variate (SNV) and orthogonal signal correction (OSC), to the prediction accuracy of quality parameters: titratable acidity (TA) and soluble solids content (SSC) in intact mango. A total of 91 mango samples (cv. Kent) were used as dataset for calibration and external prediction which was separated by means of systematic sampling based on a property (SSBP) approach. Diffuse reflectance spectra (log1/R) were acquired and recorded in wavelength range of 1000 – 2500 nm by Antaris Fourier transform NIR instrument. Judging from calibration and prediction performance, MSC found to be the best spectra pre-processing method prior to prediction model development with R2 prediction are 0.72 for TA and 0.76 for SSC. Although MSC increase the prediction performances based on R2, RMSE, RPD and RER metrics compared to the baseline, the achieved RPD, 1.9 for TA and 1.8 for SSC of this findings are still poor and need improvements to achieve even higher levels of accuracy and reliability necessitates for real-time applications.

Published

2024

2. Sufficient potassium supply enhances tolerance of potato plants to PEG-induced osmotic stress

Author

Lisanne Wilmer, Merle Tränkner, Elke Pawelzik, and Marcel Naumann

Subjects

Potassium (K), Drought stress, Polyethylene glycol (PEG), Potato (Solanum tuberosum L.), Metabolites, Adaption mechanism, Plant ecology, QK900-989

Abstract

Potassium (K) plays a crucial role in reducing the severity of drought stress. Potatoes are considered drought sensitive crops due to their shallow root system. In this study, potato cultivars ‘Milva’ and ‘Agria’ grown under -K (75 μM) and +K (1000 μM) supply in a hydroponic system were examined under greenhouse conditions. Half of the plants for each cultivar and K supply were treated for two weeks with polyethylene glycol (PEG) to induce osmotic stress at 67 days after planting (dap). For recovery, plants grew two more weeks without PEG. Plant height, biomass, and water consumption were measured weekly. Leaflets were analysed before, during, and after PEG addition to subsequently determine parameters, for example, total free amino acids and metabolites. Additionally, the K allocation in plant parts was determined. K supply and PEG positively affected biomass production, and the production of side shoots was enhanced with -K and PEG. The water consumption increased with PEG addition in Milva, which was not observed in Agria. K and sugars accumulated in side shoots, showing cultivar and treatments specific reactions. Individual amino acids, including isoleucine, leucine, valine, and alanine, accumulated under low K supply and PEG-induced osmotic stress, and functional characterization could provide information on the response to drought stress. However, K remained an important variable, providing functions of other osmolytes to maintain plant metabolism. The results revealed morphophysiological and biochemical indications for adaption mechanisms against osmotic stress and may help to identify drought stress tolerant cultivars.

Published

2022

3. Comparison of the Effects of Potassium Sulphate and Potassium Chloride Fertilisation on Quality Parameters, Including Volatile Compounds, of Potato Tubers After Harvest and Storage

Author

Lisanne Wilmer, Elke Pawelzik, and Marcel Naumann

Subjects

potato, quality, potassium, K2SO4, KCl, volatiles, Plant culture, SB1-1110

Abstract

Potatoes are an important staple food with high yield potential and great nutritional value. Potassium (K) fertilisation can increase both tuber yield and quality, but its effects differ depending on the K fertilisation form. Potatoes are known to be chloride sensitive, since chloride ions can influence, for example, the starch content. Therefore, fertilisations shortly before planting using potassium sulphate (K2SO4) are often recommended instead of potassium chloride (KCl). However, the use of different fertilisation forms is contradictory, and the chloride sensitivity of potatoes remains unclear. To examine this issue in more detail, a 2-year field experiment using two cultivars, “Laura” and “Marabel,” was conducted. K fertilisation with 240 kg K2O as K2SO4 and KCl was applied, and the control remained unfertilised. Quality traits, including internal and external parameters, were analysed after harvest and after 5 months of storage at 6°C. The results revealed minor effects on yield, but the starch content and ascorbic acid concentration were reduced due to the KCl supply. Furthermore, the reducing sugar concentration in tubers increased during storage more after KCl compared to K2SO4 fertilisation. Moreover, volatile compounds were affected by the K fertilisation form, with higher levels of lipid-derived off-flavour compounds after KCl application. However, the effects of cultivation year, cultivar, and storage interacted with the influence of the fertilisation form. In summary, KCl fertilisation can disadvantageously influence several quality traits, but the use of potato cultivars should also be considered when recommending fertilisers.

Published

2022

4. Flavor and Other Quality Traits of Tomato Cultivars Bred for Diverse Production Systems as Revealed in Organic Low-Input Management

Author

Cut Erika, Detlef Ulrich, Marcel Naumann, Inga Smit, Bernd Horneburg, and Elke Pawelzik

Subjects

tomato cultivars, VOC, organic low-input production, flavor, breeders’ sensory test, phenylethyl alcohol, Nutrition. Foods and food supply, TX341-641

Abstract

This study was conducted to determine the volatile organic compounds (VOCs) associated with fruit flavor in diverse tomato cultivars (salad and cocktail cultivars) under organic low-input production. For this objective, 60 cultivars deriving from very diverse breeding programs 1880–2015 were evaluated in 2015, and a subset of 20 cultivars was selected for further evaluation in 2016. The diversity of instrumentally determined traits, especially for VOCs concentration and sensory properties (fruit firmness, juiciness, skin firmness, sweetness, sourness, aroma, and acceptability), was investigated at two harvest dates. The evaluation of the cultivars exhibited a wide range of variation for all studied traits, with the exception of a few VOCs. Cultivar had the most important effect on all instrumentally determined traits, while the influence of cultivar × harvest date × year interaction was significant for 17 VOCs, but not for total soluble solid (TSS) and titratable acidity (TA). The VOCs with the highest proportion (>8%) were hexanal, 6-methyl-5-heptene-2-one, 2-isobutylthiazole, and (E)-2-hexenal, which were identified in all cultivars. Twelve VOCs significantly correlated with one or more sensory attributes and these VOCs also allowed differentiation of the fruit type. Among these VOCs, phenylethyl alcohol and benzyl alcohol positively correlated with acceptability in the cocktail cultivars, whereas 2-isobuthylthiazole and 6-methyl-5-hepten-2-ol negatively correlated with acceptability in the salad cultivars. As a result of this study, organic breeders are recommended to use cultivars from a wide range of breeding programs to improve important quality and agronomic traits. As examples, salad tomatoes “Campari F1”, “Green Zebra”, and “Auriga”, as well as cocktail tomatoes “Supersweet 100 F1”, “Sakura F1”, and “Black Cherry” showed higher scores for the sensory attributes aroma and acceptability under organic low-input growing conditions. It remains a challenge for breeders and growers to reduce the trade-off of yield and quality.

Published

2022

5. Assessment of sensory profile and instrumental analyzed attributes influenced by different potassium fertilization levels in three tomato cultivars

Author

Bashar Daoud, Marcel Naumann, Detlef Ulrich, Elke Pawelzik, and Inga Smit

Subjects

Plant culture, SB1-1110, Botany, QK1-989

Abstract

Sensory properties are an essential quality aspect when the consumption of fresh tomato is under consideration. The flavor of tomato is defined as a combination of taste sensations (sweetness, sourness), aroma (volatile compounds), and texture (firmness, mealiness), some of which are proven to be affected by insufficient nutrient supply − especially potassium (K). This study intends to undertake a holistic assessment of the K fertilization effect on the flavor of tomato by connecting the use of sensorial and instrumental methods. An optimal K supply significantly increased the sensory descriptors sweetness, sourness, and aroma as well as the instrumental estimated color, firmness, total soluble solids (TSS), titratable acids (TA), and dry matter (DM) in a cultivar-specific manner. The volatile organic compounds (VOCs) were not significantly affected by K fertilization. The evaluation by the panelists confirmed the results of the instru-mental analyses, by which an increment in the fruit quality with rising K supply could be detected. An optimal K supply of 3.66 g/plant could be suggested to increase tomato flavor in the cocktail cultivars studied: Primavera and Yellow Submarine. Cultivar effects should, therefore, be considered for defining the optimal K fertilizer dose that favors high tomato fruit quality and, hence, better flavor.

Published

2021

6. Cultivar-Dependent Responses in Plant Growth, Leaf Physiology, Phosphorus Use Efficiency, and Tuber Quality of Potatoes Under Limited Phosphorus Availability Conditions

Author

Leangsrun Chea, Ana Meijide, Catharina Meinen, Elke Pawelzik, and Marcel Naumann

Subjects

ATP, cultivars, phosphorus deficiency, phosphorus efficiency, leaf, potato, Plant culture, SB1-1110

Abstract

The limited availability of phosphorus (P) in soils causes a major constraint in the productivity of potatoes, which requires increased knowledge of plant adaptation responses in this condition. In this study, six potato cultivars, namely, Agria, Lady Claire, Milva, Lilly, Sieglinde, and Verdi, were assessed for their responses on plant growth, leaf physiology, P use efficiency (PUE), and tuber quality with three P levels (Plow, Pmed, and Phigh). The results reveal a significant variation in the cultivars in response to different P availabilities. P-efficient cultivars, Agria, Milva, and Lilly, possessed substantial plant biomass, tuber yield, and high P uptake efficiency (PUpE) under low P supply conditions. The P-inefficient cultivars, Lady Claire, Sieglinde, and Verdi, could not produce tubers under P deprivation conditions, as well as the ability to efficiently uptake P under low-level conditions, but they were efficient in P uptake under high soil P conditions. Improved PUpE is important for plant tolerance with limited P availability, which results in the efficient use of the applied P. At the leaf level, increased accumulations of nitrate, sulfate, sucrose, and proline are necessary for a plant to acclimate to P deficiency-induced stress and to mobilize leaf inorganic phosphate to increase internal PUE and photosynthesis. The reduction in plant biomass and tuber yield under P-deficient conditions could be caused by reduced CO2 assimilation. Furthermore, P deficiency significantly reduced tuber yield, dry matter, and starch concentration in Agria, Milva, and Lilly. However, contents of tuber protein, sugars, and minerals, as well as antioxidant capacity, were enhanced under these conditions in these cultivars. These results highlight the important traits contributing to potato plant tolerance under P-deficient conditions and indicate an opportunity to improve the P efficiency and tuber quality of potatoes under deficient conditions using more efficient cultivars. Future research to evaluate molecular mechanisms related to P and sucrose translocation, and minimize tuber yield reduction under limited P availability conditions is necessary.

Published

2021

7. Plant-Based Only: Investigating Consumers’ Sensory Perception, Motivation, and Knowledge of Different Plant-Based Alternative Products on the Market

Author

Marcel Pointke, Marlene Ohlau, Antje Risius, and Elke Pawelzik

Subjects

cheese alternative products, meat alternative products, milk alternative products, consumer research, consumer profiling, sensory characterization, Chemical technology, TP1-1185

Abstract

Consumer acceptance and product development of sustainable, healthy, and tasty plant-based alternative products (PBAPs) are closely interlinked. However, information on consumer perceptions of the sensory profile of plant-based meat, cheese, and milk remains scarce. The study aimed to investigate German consumers’ (1) sensory evaluation of PBAPs and (2) consumers´ motivations and knowledge underlying the purchase of such products. This was analyzed in relation to different dietary styles of consumers (omnivore, flexitarian, vegetarian, vegan). A sample of 159 adults completed two tasks: first, a sensory test in which participants tasted and rated three different PBAPs in two consecutive sessions, and second, a questionnaire on consumption behavior, motivation, and knowledge. Results show few differences between nutrition styles in sensory evaluation of individual product attributes. However, overall liking was rated significantly higher by vegans than by omnivores. All dietary styles reported animal welfare and environmental aspects as the main motivations for consuming PBAPs. Most participants acknowledged that meat and cheese alternatives are highly processed foods and not a fad but are not automatically healthier or more environmentally friendly than their animal-based counterparts. Future research should focus on emerging product segments such as plant-based cheeses to better understand how consumers evaluate PBAPs.

Published

2022

8. Antioxidant Properties of Tomato Fruit (Lycopersicon esculentum Mill.) as Affected by Cultivar and Processing Method

Author

Annia Gonzalez Rivero, Anna J. Keutgen, and Elke Pawelzik

Subjects

antioxidant capacity, ascorbic acid, carotenoids, lycopene, phenolics, puree, Plant culture, SB1-1110

Abstract

Tomatoes are the most consumed vegetables worldwide and a valuable source of several antioxidants. The consumption of tomato products from appropriate cultivars after suitable processing methods may significantly improve human diet. The purpose of this study was investigating the variations in the contents of the main antioxidants present in tomato fruits, in the new Cuban breeds and yellow varieties, as well as their changes during the processing to tomato puree and ketchup. The quality evaluation comprised the detection of lycopene, ascorbic acid and total phenolics and the analysis of their contribution to antioxidant capacity in selected tomato genotypes. Heating (90–100 °C/15 min) enhanced the content of lycopene and total phenolics in puree, resulting in an increment in antioxidant capacity, despite the reduction in ascorbic acid as a result of concentration processes. The conducted experiments revealed that cultivars ‘Vyta’ and ‘Cima’ are very suitable for industrial purposes due to their high dry-matter content of more than 9% fresh mass and high biological value. With respect to serving size, the best sources of antioxidants are fresh tomatoes, followed closely by tomato puree, irrespective of cultivar. However, the differences are mainly due to the edible portion size (200 g for fresh tomatoes and 60 mL for puree, respectively).

Published

2022

9. Biodiversity in Tomatoes: Is It Reflected in Nutrient Density and Nutritional Yields Under Organic Outdoor Production?

Author

Cut Erika, Stefanie Griebel, Marcel Naumann, and Elke Pawelzik

Subjects

tomato, biodiversity, nutrients, nutritional yield, dietary reference intake, genotypic stability, Plant culture, SB1-1110

Abstract

In many regions of the world, human nutrition is still characterized by an insufficient intake of essential nutrients like minerals such as iron (Fe) and zinc (Zn). In view of decreasing resources and a growing world population, the efficiency and the sustainability of cultivation systems should be considered not only in terms of crop yield and profit margin but also in terms of the yield of essential nutrients. Tomatoes are the most consumed vegetable in the world. Organic outdoor tomato cultivation is generally characterized by a higher diversity of varieties and lower fertilization input compared to conventional production. A 2-year field experiment with a set of 20 cultivars was performed to evaluate their variation regarding fruit mineral concentrations [potassium (K), calcium (Ca), magnesium (Mg), phosphorous (P), Fe, and Zn], their contribution to the dietary reference intake (DRI), and the nutritional yields (adults ha–1 year–1). Results show that mineral concentrations differed significantly by cultivar and by year. However, even though significant genotype-by-year effects appear, several cultivars exhibit high genotype stability across years for the single traits studied. Taking this together with medium-to-high heritability, genetics strongly controls most studied traits. Among the cultivars, the contribution of 100 g fresh fruits varied from 4.5 to 7.7% for K, 0.8 to 1.8% for Ca, 2.3 to 4.4% for Mg, 3 to 6.6% for P, 3.1 to 6.9% for Fe, and 1.9 to 4.2% for Zn to meet daily requirements. Based on average fruit yields per hectare, the cultivars varied with regard to the nutritional yields for all the studied minerals, but most strongly for Fe (44–120 adults ha–1 year–1) and Zn (22–84 adults ha–1 year–1). In terms of contribution to the DRI and nutritional yield for Fe, the cocktail cultivar “Bartelly F1” produced the highest results, while for Zn the salad cultivar “Bocati F1” showed the highest values. Our results show that the targeted use of tomato biodiversity in organic outdoor production can be suitable to achieve high fruit yields as well as to produce high nutritional yields per unit area, thus contributing to more effective land use and improved food security. These findings also provide valuable insights for tomato breeders to improve the tomato fruit quality while maintaining yield.

Published

2020

10. The Impact of Local Agrobiodiversity and Food Interventions on Cost, Nutritional Adequacy, and Affordability of Women and Children's Diet in Northern Kenya: A Modeling Exercise

Author

Jacob Sarfo, Gudrun B. Keding, Julia Boedecker, Elke Pawelzik, and Céline Termote

Subjects

cost of diet, Kenya, micronutrient powder, wild plant species, women, children, Nutrition. Foods and food supply, TX341-641

Abstract

Wild plant species are often excellent sources of micronutrients and have the potential to promote healthy living, yet they are under-exploited. Distribution of micronutrient powders as diet supplements can play an effective role in reducing micronutrient deficiencies among infants and young children. However, assessing their effects in ensuring a nutritious diet at low cost have been limited. This study assessed the impact of including wild plant species and micronutrient powders in modeled optimized lowest-cost diets for women and children in rural Kenya. Market surveys, focus group discussions in six villages and a 24-h dietary intake recall were used to collect data that were subsequently entered in the cost of diet linear programming tool to model lowest-cost nutritious diets for women and children in Turkana County, Kenya. Three wild vegetables, three wild fruits, and micronutrient powder were added to the models to assess their impact on the cost and the nutrient adequacy of the diets. A locally adapted cost optimized nutritious diet without any intervention costs between 50 and 119 Kenyan shillings (KES) daily ($0.5 to $1.2) for children between 6 and 23 months and 173 to 305 KES ($1.8 to $2.9) for women. Addition of the three wild vegetables resulted in cost reductions between 30 and 71% as well as making up for iron and zinc gaps. The micronutrient powder had an insignificant effect on diet cost and filling nutrient gaps. Edible wild plant species, specifically wild vegetables, can reduce diet costs in considerable proportions while filling nutrient gaps year-round. However, affordability of a nutritious diet remains a major challenge in Turkana County, irrespective of the wealth group.

Published

2020

11. Flavor-Related Quality Attributes of Ripe Tomatoes Are Not Significantly Affected Under Two Common Household Conditions

Author

Larissa Kanski, Marcel Naumann, and Elke Pawelzik

Subjects

Solanum lycopersicum L., aroma volatiles, flavor, post-harvest chain, household storage, quality, Plant culture, SB1-1110

Abstract

Consumer complaints about the flavor of fresh tomato fruits (Solanum lycopersicum L.) have increased in the past few decades, and numerous studies have been done on the flavor of tomatoes and how it is influenced. However, it has not yet been taken into account how consumer handling affects the flavor when considering the complete post-harvest chain—from retailer (distributor) to retail to consumer. In this study, the impact of two household storage regimes on the volatile profile and important flavor-related compounds were examined, considering the entire post-harvest handling. New breeding lines (n = 2) and their parental cultivars (n = 3) were evaluated. Fruits were harvested ripe and stored at 12.5°C for 1 day, at 20°C for 2 days, and afterward at either 20 or 7°C for another 4 days. The aroma volatile profile was measured using GC-MS and GC-FID. A trained panel was used to characterize the sensory attributes of the fruits. In both storage regimes, the relative amount of hexanal increased during the storage period in three of the five cultivars/breeding lines while benzaldehyde was the only volatile compound that decreased significantly in four cultivars/breeding lines. The relative concentration of the precursors of lipid-derived volatiles—linoleic (C18:2) and linolenic (C18:3) acid—did not change in both storage regimes. The lycopene and β-carotene contents increased slightly during storage (20 and 7°C), as the carotenoid-derived volatile 6-methyl-5-hepten-2-one did. The fructose and glucose concentrations did not vary significantly, while the content of total soluble solids increased during both storage regimes. No significant difference could be found between the fruits stored at 20 or 7°C for 4 days after the post-harvest handling in all the parameters analyzed, including the sensory analysis, considering all cultivars/breeding lines. A storage temperature of 7°C is not detrimental for the flavor of ripe fruits under the experimental conditions used. The genetic background of the studied cultivars/breeding lines have a higher impact on the flavor variation than the two common household storage conditions when storing ripe fruits and taking the entire post-harvest handling into account.

Published

2020

12. Effect of potassium fertilization on the contents of antioxidants in three cocktail tomato cultivars

Author

Frederike Else Helene Sonntag, Diana Bunzel, Sabine Kulling, Ina Porath, Franziska Pach, Elke Pawelzik, Inga Smit, and Marcel Naumann

Subjects

Plant culture, SB1-1110, Botany, QK1-989

Abstract

Tomatoes are an important source of health beneficial phytochemicals, which act as antioxidants such as ascorbic acid, phenolic compounds, carotenoids, and tocopherols. The content of antioxidants is influenced, among others, by abiotic stress factors, like the nutritional status. Potassium (K) is a macronutrient, which is essential for several physiological functions in plants, for example, translocation of assimilates, activation of enzymes, maintenance of turgescence, and stomata regulation. The aim of this study was to investigate the effect of increasing K fertilization on the concentration of antioxidants in cocktail tomatoes. Therefore, three tomato cultivars (Primavera, Resi, and Yellow Submarine), grown in an outdoor pot experiment, were fertilized with increasing K doses for two consecutive years. It was confirmed that antioxidants in tomato fruit can be affected by the K regime, but was also shown that other factors may reduce or even inverse those effects when cultivation takes place in an uncontrolled outdoor environment. Most consistent K fertilization effects were found for naringenin, p-coumaric acid and caffeic acid. However, enrichment of tomatoes with antioxidants by K fertilization is cultivar dependent and, therefore, general statements should be avoided.

Published

2020

13. Comparison between Hyperspectral Imaging and Chemical Analysis of Polyphenol Oxidase Activity on Fresh-Cut Apple Slices

Author

Luna Shrestha, Boris Kulig, Roberto Moscetti, Riccardo Massantini, Elke Pawelzik, Oliver Hensel, and Barbara Sturm

Subjects

Optics. Light, QC350-467

Abstract

The assessment of the quality of fresh-cut apple slices is important for processing, storage, market value, and consumption. Determination of polyphenol oxidase activity (PPO) in apples is critical for controlling the quality of the final product (i.e., dried apples and juices). Hyperspectral imaging (HSI) is a nondestructive, noncontact, and rapid food quality assessment technique. It has the potential to detect physical and chemical quality attributes of foods such as PPO of apple. The aim of this study was to investigate the suitability of HSI in the visible and near-infrared (VIS-NIR) range for indirect assessment of PPO activity of fresh-cut apple slices. Apple slices of two cultivars (cv. Golden Delicious and Elstar) were used to build a robust detection algorithm, which is independent of cultivars and applied treatments. Partial least squares (PLS) regression using the 7-fold cross-validation method and method comparison analysis (Bland–Altman plot, Passing–Bablok regression, and Deming regression) were performed. The 95% confidence interval (CI) bands for the Bland–Altman analysis between the methods were −4.19 and 13.11, and the mean difference was 3.7e−12. The Passing–Bablok regression had a slope of 0.8 and an intercept of 7.6. The slope of the Deming regression was 0.8 within the CI bands of 0.56 and 1.10. These results show acceptable performance and no significant deviation from linearity. Hence, the results demonstrated the feasibility of HSI as an indirect alternative to the standard chemical analysis of PPO enzyme activity.

Published

2020

14. Cultivation Systems, Light Intensity, and Their Influence on Yield and Fruit Quality Parameters of Tomatoes

Author

Larissa Kanski, Hannah Kahle, Marcel Naumann, Julia Hagenguth, Andreas Ulbrich, and Elke Pawelzik

Subjects

glazing, LED interlighting, antioxidant capacity, aroma compounds, metabolite profile, breeding lines, Agriculture

Abstract

The yield and fruit quality parameters of tomatoes are influenced by environmental conditions, and cultivation systems play an important role in improving quality, apart from breeding. We examined five breeding lines and one cultivar in five cultivation systems for yield and fruit quality parameters. The cultivation systems include a single-glazed greenhouse with and without supplementary LED interlighting; a double-glazed greenhouse with and without supplementary LED interlighting; and an organic cultivation system on the field with a rainout shelter. Plants and fruits grown in the double glazing system showed significantly lower values for plant height, yield, DM, TSS, fructose, glucose, antioxidant capacity (DPPH, TEAC), TPC, calcium, phosphorus, and manganese content than in the single-glazed greenhouse, which can be explained by the lower light transmittance. However, it could be seen that the additional LED interlighting could lower the negative effect on yield and quality traits due to double glazing.

Published

2021

15. Alleviation of Cadmium Toxicity in Rice by γ-Polyglutamic Acid Produced by Bacillus subtilis

Author

Nuchnapa Kotabin, Kritchaya Issakul, Elke Pawelzik, Yasutaka Tahara, and Orawan Chunhachart

Subjects

Bacillus subtilis, γ-polyglutamic acid, cadmium, rice, Geography. Anthropology. Recreation, Environmental sciences, GE1-350

Abstract

The effect of γ-polyglutamic acid (PGA) produced by Bacillus subtilis on cadmium (Cd)-damaged rice was investigated in experiments with pots containing soil contaminated with Cd at a concentration of 0-200 mg/kg and PGA at a concentration of 0-500 mg/kg. Although Cd reduced the growth and productivity of rice in comparison to the control, the addition of 500 mg/kg of PGA alleviated the effects of Cd toxicity in rice, resulting in increases in shoot and root lengths, the vigor of the rice and the number of seeds per panicle. Micrographs of ultrathin sections of root cells showed that the addition of 500 mg/kg of PGA decreased Cd accumulation in both the epidermis and the intracellular space of cortex, suggesting that PGA reduced Cd transportation into root cells. Based on these results and the metal-binding characteristics of PGA, it is conceivable that the mechanism by which PGA alleviates Cd toxicity is the extracellular formation of Cd-PGA complexes.

Published

2017

16. Variation in fruit chemical and mineral composition of Kenyan guava (Psidium guajava L.): Inferences from climatic conditions, and fruit morphological traits

Author

Josiah Chemulanga Chiveu, Marcel Naumann, Katja Kehlenbeck, and Elke Pawelzik

Subjects

Plant culture, SB1-1110, Botany, QK1-989

Abstract

There is limited knowledge about the impact of climatic conditions and fruit morphological traits on the nutritional composition of the guava fruit. Fruits were gathered from 128 guava trees across four geographically diverse regions of Kenya. The fruits were morphologically characterized and analysed for their chemical and mineral composition. The ascorbic acid content correlated positively only with total annual precipitation, while total soluble solids (TSS) correlated positively with mean annual temperature. TSS correlated negatively with pulp weight and was higher in white-fleshed fruits than in the red-fleshed types. The mineral content of the fruits correlated negatively with most of the fruit weight- and size-based morphological traits, as well as with the total annual precipitation, but positively with fruit seed proportion. This information could act as a guide in the selection of specific regions for upscaling guava production and aid in the selection of accessions for improvement programmes that enhance guava fruit nutritional composition.

Published

2019

17. Chloride Changes Soil–Plant Water Relations in Potato (Solanum tuberosum L.)

Author

Mirjam T. Koch, Elke Pawelzik, and Timo Kautz

Subjects

potato, chloride, plant hydration, soil–plant water relations, tuber yield, tuber dry matter, Agriculture

Abstract

There is evidence that chloride (Cl―) can lead to both an improved hydration and water use efficiency in plants due to its osmotic properties. The potato crop is widely assumed to be sensitive to Cl―. This is based on studies which found tuber yield or tuber starch reductions following a Cl― fertilization. However, there are also contradictory reports which could not find any detrimental effect of Cl― fertilization on potato plant development. As potato is inefficient in the use of water, we aimed to test if it is possible to improve the hydration status of potato without reducing tuber yield and dry matter by means of Cl― fertilization. We conducted a pot experiment with four different Cl― doses and investigated soil–plant water relations, biomass, tuber yield and dry matter development. Our findings deliver an indication that the potato crop is much less sensitive to Cl― than previously assumed and, more importantly, that a Cl― supply can indeed improve the potato shoot water status. This happened without impairing tuber yield and dry matter. Since potato is very sensitive to drought stress, we assume that Cl― fertilization is a promising measure to improve the drought resilience of potato.

Published

2021

18. Reliable Discrimination of Green Coffee Beans Species: A Comparison of UV-Vis-Based Determination of Caffeine and Chlorogenic Acid with Non-Targeted Near-Infrared Spectroscopy

Author

Adnan Adnan, Marcel Naumann, Daniel Mörlein, and Elke Pawelzik

Subjects

Arabica, Robusta, caffeine, chlorogenic acid, linear discriminant analysis, food fraud, Chemical technology, TP1-1185

Abstract

Species adulteration is a common problem in the coffee trade. Several attempts have been made to differentiate among species. However, finding an applicable methodology that would consider the various aspects of adulteration remains a challenge. This study investigated an ultraviolet–visible (UV-Vis) spectroscopy-based determination of caffeine and chlorogenic acid contents, as well as the applicability of non-targeted near-infrared (NIR) spectroscopy, to discriminate between green coffee beans of the Coffea arabica (Arabica) and Coffea canephora (Robusta) species from Java Island, Indonesia. The discrimination was conducted by measuring the caffeine and chlorogenic acid content in the beans using UV-Vis spectroscopy. The data related to both compounds was processed using linear discriminant analysis (LDA). Information about the diffuse reflectance (log 1/R) spectra of intact beans was determined by NIR spectroscopy and analyzed using multivariate analysis. UV-Vis spectroscopy attained an accuracy of 97% in comparison to NIR spectroscopy’s accuracy by selected wavelengths of LDA (95%). The study suggests that both methods are applicable to discriminate reliably among species.

Published

2020

19. Effect of Magnesium Supply and Storage Time on Anti-Nutritive Compounds in Potato Tubers

Author

Elżbieta Wszelaczyńska, Jarosław Pobereżny, Wojciech Kozera, Tomasz Knapowski, Elke Pawelzik, and Ewa Spychaj-Fabisiak

Subjects

magnesium, nitrates, nitrites, potato tubers, tga, storage, quality, Agriculture

Abstract

The nutritional quality of potato tubers is cultivar-specific and depends on climate-soil conditions and agrotechnical practices, as well as the conditions during long-term storage. Studies were performed from 2009−2011 to determine the effects of magnesium fertilisation and storage duration on the contents of the anti-nutritive compound nitrates, nitrites and total glycoalkaloids (TGA) in potato tubers of mid-early cultivar “Bila” (Solanum tuberosum L.). Magnesium (Mg) was applied in doses of 0, 20, 40, 60, 80 and 100 kg MgO ha−1, respectively, in the form of kieserite−magnesium sulphate (26% MgO). Potato quality after harvest and after three and six months of storage was determined. The content of nitrates in tubers after harvest ranged from 303 to 356 mg kg−1 FW and nitrites from 1.59 to 1.67 mg kg−1 FW. Increasing magnesium fertilisation reduced the nitrate and nitrite content of tubers but increased TGA content. Possible explanations for the TGA increase after Mg supply are discussed. Tubers that contained less TGA after harvest also had less glycoalkaloids after storage. However, physical damage during harvest or transportation, exposure to light and bad storage conditions increase the concentrations of glycoalkaloids in tubers. The consumption of cultivar “Bila” would not exceed the acceptable daily intake of harmful substances.

Published

2020

20. Optimisation of Physical and Chemical Treatments to Control Browning Development and Enzymatic Activity on Fresh-cut Apple Slices

Author

Luna Shrestha, Boris Kulig, Roberto Moscetti, Riccardo Massantini, Elke Pawelzik, Oliver Hensel, and Barbara Sturm

Subjects

fresh-cut apple, anti-browning treatment, peroxidase, polyphenol oxidase, optimisation, browning, Chemical technology, TP1-1185

Abstract

Optimisation of processing time and pre-treatments are crucial factors prior to apple drying to produce a high-quality product. The purpose of the present study was to test the utility of physical (hot-water, HWB and steam blanching, SB) and chemical (1% ascorbic acid, AA; and 1% citric acid, CA) treatments, alone or in combination in reducing surface discolouration as well as oxidative enzyme activity in apple slices (cv. Golden Delicious and Elstar) exposed to air at room temperature for 0, 30 and 60 min. The total colour change (ΔE) for Golden Delicious was equal to 2.38, 2.68, and 4.05 after 0, 30 and 60 min of air exposure, respectively. Dipping in AA solution (1% w/v) was found to be the best treatment to limit surface discolouration of both apple cultivars. The best heat treatments to inhibit polyphenol oxidase/peroxidase enzymes activity were 70 °C HWB for Golden Delicious and 60 °C HWB for Elstar slices, both in combination with a solution of 1% AA and 1% CA. The tested apple cultivars were found to require different treatments at minimum ambient air exposure to obtain the best surface colour condition.

Published

2020

21. Identification of Differently Regulated Proteins after Fusarium graminearum Infection of Emmer (Triticum dicoccum) at Several Grain Ripening Stages

Author

Christina Trümper, Katrin Paffenholz, Inga Smit, Philip Kössler, Petr Karlovsky, Hans Peter Braun, and Elke Pawelzik

Subjects

Fusarium head blight, grain development, emmer, plant proteomics, defence proteins, Biotechnology, TP248.13-248.65, Food processing and manufacture, TP368-456

Abstract

This study was conducted to improve the knowledge of molecular processes involved in the interaction between Fusarium graminearum and emmer in the course of grain ripening. Emmer plants were artificially inoculated with a F. graminearum spore suspension at anthesis. In the course of grain ripening from milk ripe to plant death stage, grains at four phenological growth stages were collected for analysis. The infection degree was evaluated based on the F. graminearum DNA content in emmer grain infolding tissues (glumes and rachis). For proteome analysis the albumin and globulin fractions of emmer grains, consisting of proteins with various functions related to the development and stress response, were analysed regarding the changes due to Fusarium infection by two-dimensional gel electrophoresis. Altogether, forty-three proteins affected by infection were identified by mass spectrometry. Enzymes detoxifying reactive oxygen species were regulated at all developmental stages. In the early stage of grain development, the abundance of proteins related to stress response, such as 2-Cys peroxiredoxin, a chitinase, a xylanase inhibitor and a spermidine synthase was increased. During later stage of grain development, the abundance of stress-related proteins, such as chitinases, heat shock proteins and an α-amylase inhibitor-like protein, decreased. During all ripening stages, but especially during medium milk stage (BBCH 75) and soft dough stage (BBCH 85), the abundance of proteins related to carbon metabolism, starch and protein biosynthesis as well as photosynthesis increased due to F. graminearum infection. At the plant death stage (BBCH 97) the abundance of only two proteins related to metabolism decreased.

Published

2015

22. Impact of Fusarium spp. infection of bread wheat (Triticum aestivum L.) on composition and quality of flour in association with EU maximum level for deoxynivalenol

Author

Marie Kreuzberger, Sasithorn Limsuwan, Kai Eggert, Petr Karlovsky, and Elke Pawelzik

Subjects

Wheat, Fusarium graminearum, deoxynivalenol, mycotoxins, processing, milling, Plant culture, SB1-1110, Botany, QK1-989

Abstract

Contamination of grain with mycotoxins such as deoxynivalenol (DON) is the major threat after Fusarium head blight (FHB) infection of wheat, however technological quality can also be impaired. The European Union has established maximum levels (ML) of DON for wheat grain and foodstuffs. The composition (starch, gluten proteins) and quality (protein content, sedimentation value, wet gluten, water absorption, mixing properties of dough, baking volume) of 72 flour Type 550 samples from two years either fulfilling or exceeding ML of 0.75 mg kg-1 were investigated. DO content of flours ranged widely from below limit of quantification to 11.84 mg kg-1. Aside from a slight loss of loaf shape in flours highly exceeding ML, no negative effect on composition and quality of flour was observed in flours exceeding ML compared to those fulfilling ML. A significant decrease in total glutenin and LMW-GS content did not correlate with any quality trait. Hence, if flours fulfill ML for DON, reduced technological quality due to FHB is not significant.

Published

2015

23. Rapid Prediction of Moisture Content in Intact Green Coffee Beans Using Near Infrared Spectroscopy

Author

Adnan Adnan, Dieter von Hörsten, Elke Pawelzik, and and Daniel Mörlein

Subjects

quality, rapid methods, infrared spectroscopy, Coffea arabica (Arabica), Coffea canephora (Robusta), chemometrics, Chemical technology, TP1-1185

Abstract

Moisture content (MC) is one of the most important quality parameters of green coffee beans. Therefore, its fast and reliable measurement is necessary. This study evaluated the feasibility of near infrared (NIR) spectroscopy and chemometrics for rapid and non-destructive prediction of MC in intact green coffee beans of both Coffea arabica (Arabica) and Coffea canephora (Robusta) species. Diffuse reflectance (log 1/R) spectra of intact beans were acquired using a bench top Fourier transform NIR instrument. MC was determined gravimetrically according to The International Organization for Standardization (ISO) 6673. Samples were split into subsets for calibration (n = 64) and independent validation (n = 44). A three-component partial least squares regression (PLSR) model using raw NIR spectra yielded a root mean square error of prediction (RMSEP) of 0.80% MC; a four component PLSR model using scatter corrected spectra yielded a RMSEP of 0.57% MC. A simplified PLS model using seven selected wavelengths (1155, 1212, 1340, 1409, 1724, 1908, and 2249 nm) yielded a similar accuracy (RMSEP: 0.77% MC) which opens the possibility of creating cheaper NIR instruments. In conclusion, NIR diffuse reflectance spectroscopy appears to be suitable for rapid and reliable MC prediction in intact green coffee; no separate model for Arabica and Robusta species is needed.

Published

2017

24. Fruit and vegetable processing and consumption: Knowledge, attitude, and practices among rural women in East Africa

Author

Jacob Sarfo, Elke Pawelzik, and Gudrun B. Keding

Subjects

Development, Agronomy and Crop Science, Food Science

Abstract

High post-harvest losses of fruits and vegetables (FVs) limit their supply and availability for year-round consumption. Hence, processing innovations at their production areas could help address this constraint, which requires the need to assess people's perceptions in these areas. Therefore, this study gauged the knowledge, attitude, and practices towards FV processing and consumption and its relationship with actual FV consumption. Surveys were conducted with women in six study sites – three fruit and three vegetable production areas – in Kenya, Tanzania, and Uganda. Quantitative 24-h dietary and 7-day FV recalls were collected across two seasons. Open and closed-ended questions were constructed to assess the women's knowledge, attitude, and practices towards FV processing and consumption. The fruit and vegetable sites included 584 and 732 women, respectively. Average fruit consumption was 4-135 g/day in the plenty season and 4-106 g/day in the lean season. Vegetable consumption was 112-146 g/day and 84-180 g/day in the plenty and lean season, respectively. There were significant consumption differences across seasons. Most women expressed high knowledge of FV processing and consumption benefits and showed a positive attitude towards FV processing and consumption. Yet, in practice, a small number of women process FVs largely due to limited processing know-how and equipment. The relationship between knowledge and attitude and FV consumption was negative or none. The high knowledge and positive attitude expressed, yet the limited processing know-how and equipment should be a basis for interventions to increase FV processing into nutritious products for better nutrition and to ensure their availability year-round.

Published

2023

25. Influence of blend proportion and baking conditions on the quality attributes of wheat, orange‑fleshed sweet potato and pumpkin composite flour dough and bread: optimization of processing factors

Author

Solomon Kofi Chikpah, Joseph Kudadam Korese, Oliver Hensel, Barbara Sturm, and Elke Pawelzik

Subjects

Backfähigkeit, Batate, Gemisch, Kürbis, Mehl, Weizen

Abstract

Orange-fleshed sweet potato (OFSP) and pumpkin fruit are underutilized crops with great potential for the production of high-quality bread with health-enhancing properties. However, the incorporation of nonconventional flour in bread formula may influence the dough and bread quality properties. This study investigated the effect of partial substitution of wheat flour with OFSP (10–50%) and pumpkin flour (10–40%), baking temperature (150–200 °C) and baking time (15–25 min) on the quality properties of the composite dough and bread using response surface methodology (RSM). Dough rheological, bread physical and textural properties were analyzed, modelled and optimized using RSM. Satisfactory regression models were developed for the dough and bread quality attributes (R2 > 0.98). The dough development time, crust redness, hardness, and chewiness values increased while optimum water absorption of dough, specific volume, lightness, springiness, and resilience of bread decreased significantly (p Graphical Abstract

Published

2023

26. Breeders' Sensory Test: A new tool for early selection in breeding for tomato ( Solanum lycopersicum ) flavour

Author

Julia Hagenguth, Larissa Kanski, Hannah Kahle, Marcel Naumann, Elke Pawelzik, Heiko C. Becker, and Bernd Horneburg

Subjects

Genetics, Plant Science, Agronomy and Crop Science

Published

2022

27. Comparison Among Pre-Processing Approaches to the Prediction Performance of Near Infrared Spectroscopic Models

Author

Agus Arip Munawar and Elke Pawelzik

Published

2023

28. Nutrient management in potato

Author

Marcel Naumann and Elke Pawelzik

Published

2023

29. List of contributors

Author

Isabel Abrantes, Taseer Ahmad, NizamUddin Ahmed, Emre Aksoy, M. Teresa Almeida, Allah Bakhsh, Stefania Balogh, Ryan Barrett, Kubilay Kurtulus Bastas, Dominika Boguszewska-Mańkowska, Daniel O. Caldiz, Mehmet Emin Çalışkan, Sevgi Çalışkan, Mohamad Chikh-Ali, S.C. Chiru, I. Luci Conceição, Zbigniew Czerko, Sarbesh Das Dangol, Ufuk Demirel, Mehmet Nedim Doğan, Ivânia Esteves, Huachun Guo, Muneeb Hassan Hashmi, Md Jakir Hossain, Anita Ierna, P. Iliev, Irina Ilieva, Khawar Jabran, Alexander V. Karasev, Tefide Kızıldeniz, Yves Le Hingrat, Carla Maleita, A.T.M. Majharul Mannan, Amir Maqbool, Sylvie Marhadour, Jane Muthoni, Muhammad Naeem, Muhammad Nadir Naqqash, Marcel Naumann, Noman Nazik, Vladimir S. Osipov, E.V. Oves, Elke Pawelzik, Z. Polgar, Charlotte Prodhomme, Bernard Quéré, Mohammad A. Rahim, Andrew Robinson, Faisal Saeed, Hussein Shimelis, Ahmad Omid Siddiqui, Floriana Maria Ştefan, Paul C. Struik, Wang Su, Nusrat Sultana, Mike Thornton, Leah Tsror (Lahkim), Zeynep Ünal, İlhan Üremiş, Peter VanderZaag, Fang Wang, Jian Wang, Caner Yavuz, M. Farhan Yousaf, Krystyna Zarzyńska, Aleksey G. Zeldner, S.V. Zhevora, Yun Zhou, and M. Abu Bakar Zia

Published

2023

30. Rapid and non-destructive prediction of mango sweetness and acidity using near infrared spectroscopy.

Author

Agus A. Munawar, Dieter von Hörsten, Daniel Mörlein, Elke Pawelzik, and Jens Karl Wegener

Published

2013

31. Comparison of Grain Processing Techniques on Saponin Content and Nutritional Value of Quinoa (Chenopodium quinoa Cv. Yellow Pang-da) Grain

Author

Pitipong Thobunluepop, Sukumarn Lertmongkol, Wilasinee Chitbanchong, Pasajee Kongsil, Ed Sarobol, Elke Pawelzik, Ranu Tumpaung, and Damrongvudhi Onwimol

Subjects

chemistry.chemical_classification, Nutrition analysis, Horticulture, chemistry.chemical_compound, Control treatment, Chemistry, Starch, Flavonoid, Saponin, Agronomy and Crop Science, Water content, Chenopodium quinoa, Flavor

Abstract

lbgBackground and Objective:l/bg Quinoa grain contained saponin in pericarp, which causes bitter flavor. After harvesting, quinoa grain is required to remove saponin before being consumed. Thus, this study aimed to study post harvest management of grain processing on the saponin and nutrition value of quinoa grain. lbgMaterials and Methods:l/bg The experiment was arranged in a Completely Randomized Design (CRD) with three replications and saponin removal technique with milling process (Tlsubg1l/subg-Tlsubg2l/subg) and reagent washing (Tlsubg3l/subg-Tlsubg8l/subg) were used as experimental treatments comparing with non-process grains as a control (Tlsubg9l/subg). Nutrition analysis was an indication of quality in post-process quinoa grain. lbgResults:l/bg The experiment found that Tlsubg1l/subg, Tlsubg3l/subg, Tlsubg4l/subg, Tlsubg5l/subg, Tlsubg6l/subg and Tlsubg7l/subg could reduce saponin content significantly different from Tlsubg9l/subg, while Tlsubg2l/subg and Tlsubg8l/subg still show high saponin content when compared with Tlsubg9l/subg. Tlsubg2l/subg and Tlsubg4l/subg techniques could maintain most of the nutritional value of quinoa grain when compared with control (Tlsubg9l/subg). lbgConclusion:l/bg Finally, this experiment could be concluded that quinoa was washed by alkaline solution (pH 8) for 8 min by three times (Tlsubg4l/subg) could be an optimum of saponin removal technique. This technique not only removed saponin but could also maintain quinoa grain qualities. Meanwhile, it potentially reduced for 66.03 percent of saponins content when compared with control treatment, which did not change in protein content, flavonoid content, moisture content, starch content, phenolic content and color (L*) of quinoa grain.

Published

2021

32. Effect of orange-fleshed sweet potato flour particle size and degree of wheat flour substitution on physical, nutritional, textural and sensory properties of cookies

Author

Barbara Sturm, Elke Pawelzik, Oliver Hensel, Solomon Kofi Chikpah, and Joseph Kudadam Korese

Subjects

0106 biological sciences, Wheat flour, 04 agricultural and veterinary sciences, General Chemistry, Orange (colour), Ascorbic acid, 040401 food science, 01 natural sciences, Biochemistry, Industrial and Manufacturing Engineering, 0404 agricultural biotechnology, 010608 biotechnology, Food science, Particle size, Potato starch, Food Science, Biotechnology, Mathematics

Abstract

Orange-fleshed sweet potato (OFSP) flour is rich in health-promoting compounds that can improve the nutritional benefits of baked products when blended with wheat flour. However, the flour particle size and blend proportion may affect the quality properties and consumer acceptability of bakery products. This study investigated the effect of flour particle sizes and blend proportions on the physical, nutritional, textural and sensory properties of peeled and unpeeled OFSP composite flour cookies. Peeled and unpeeled OFSP flours (≤ 250 μm and ≤ 500 μm particle size) were produced, and each was used to replace soft wheat flour at the rate of 0 to 100% for cookies formulation. The results obtained showed that substitution of wheat flour with OFSP flours significantly (p L*) but increased diameter, spread ratio, crust redness, yellowness, contents of ß-carotene, vitamin A, ascorbic acid, total phenolics and flavonoids, and the antioxidant capacity. The hardness and fracturability of the OFSP-based cookies ranged between 1.389 and 10.142 kg and 0.873 and 9.431 kg, respectively, whereas the values of the control cookies were 1.281 ± 0.003 kg and 1.274 ± 0.003 kg, respectively. The effect of flour particle size on the physical and nutritional properties of cookies was insignificant (p > 0.05). However, the ≤ 250 μm particle size flour cookies had higher overall acceptability than the ≤ 500 μm particle size flour cookies. The unpeeled OFSP composite cookies had higher bioactive compounds concentrations except for ascorbic acid but had lower overall acceptability than the peeled OFSP cookies. Generally, the 30% peeled OFSP composite flour cookies had the highest consumer acceptability.

Published

2021

33. The effect of short-term vs. long-term soil moisture stress on the physiological response of three cocoa (Theobroma cacao L.) cultivars

Author

Alexandra Glawe, Petr Karlovsky, Monika Schneider, Elke Pawelzik, Wiebke Niether, Katharina Pfohl, and Noah Adamtey

Subjects

0106 biological sciences, Irrigation, Moisture, biology, Physiology, Theobroma, fungi, Drought tolerance, food and beverages, 04 agricultural and veterinary sciences, Plant Science, biology.organism_classification, 01 natural sciences, Horticulture, chemistry.chemical_compound, chemistry, Seedling, 040103 agronomy & agriculture, 0401 agriculture, forestry, and fisheries, Crop husbandry, Cultivar, Agronomy and Crop Science, Abscisic acid, Water content, 010606 plant biology & botany

Abstract

Understanding water stress signaling mechanisms and screening for tolerant cocoa cultivars are major challenges when facing prolonged dry and rainy seasons in cocoa-producing areas. While abscisic acid (ABA) and proline are supposed to enhance drought tolerance in cocoa, the role of polyamines remains unclear. The aim of this study was to investigate the biochemical response and phenological adaptation of cocoa (Theobroma cacao) on different soil moisture conditions, with a focus on short-term (20 days) and long-term (89 days) stress conditions, and to compare the performance of three cocoa cultivars. In a split plot design with four blocks, cocoa seedlings of an international high-yielding cultivar (TSH-565) and two locally selected cultivars (IIa-22 and III-06) from the drought-exposed Alto Beni region, Bolivia, were arranged in pots under a roof shelter (cultivar: three levels). The seedlings were exposed to strong (VERY DRY) and moderate (DRY) soil moisture deficits, water logging (WET) and regular irrigation (MOIST) that served as a control (moisture: four levels). We examined the growth performance and the levels of ABA, proline, and polyamines in the leaves. Growth was reduced already at a moderate drought, while severe drought enhanced seedling mortality. Severe drought increased the levels of ABA by 453% and of proline by 935%, inducing a short-term stress response; both compounds were degraded over the long-term period. The polyamine concentration was unrelated to soil moisture. The cocoa cultivars did not differ in their biochemical response to soil moisture stress (proline: p-value = 0.5, ABA: p-value = 0.3), but the local cultivar III-06 showed a stronger height growth increment than the international cultivar TSH-565 (237%, p-value = 0.002) under drought conditions.

Published

2020

34. Partitioning of dry matter and minerals in Kenyan common guava under salt stress: implications for selection of adapted accessions for saline soils

Author

Josiah Chemulanga Chiveu, Elke Pawelzik, Marcel Naumann, Ute Ubbenjans, and Katja Kehlenbeck

Subjects

040101 forestry, chemistry.chemical_classification, Psidium, Soil salinity, 0211 other engineering and technologies, Salt (chemistry), Biomass, 021107 urban & regional planning, Forestry, 04 agricultural and veterinary sciences, 02 engineering and technology, 15. Life on land, Biology, Salinity, Horticulture, chemistry, 0401 agriculture, forestry, and fisheries, Dry matter

Abstract

Common guava (Psidium guajava L.) is valued for its fruit, which is a source of vitamins, minerals, and natural antioxidants. However, guava production faces salinity challenges globally. Salinity ...

Published

2020

35. Plant-Based Alternative Products: Are They Healthy Alternatives? Micro- and Macronutrients and Nutritional Scoring

Author

Elke Pawelzik and Marcel Pointke

Subjects

Nutrition and Dietetics, Meat, Nutrition. Foods and food supply, meat alternative, Fatty Acids, food and beverages, Nutrients, online market analysis, Cheese, micronutrients, Nutri-Score, Animals, TX341-641, Sodium Chloride, Dietary, cheese alternative, Food Science

Abstract

In recent decades, the demand, supply, and consumption of plant-based (pb) alternative products have increased worldwide. The objective of this study was to characterize pb meat and cheese products and compare them with their respective animal-based products. Data were collected in online market analyses (2019/2021). Nutritional data, Nutri-Score, and analysis of micronutrients are presented in this article. The number of products has grown in all categories, with the largest increase of 110% in pb cheese. The main protein sources in pb meat were soy and wheat, followed by an increasing use of peas. Pb meat generally contained less energy and total and saturated fat, but more carbohydrates and sugars than meat. In pb cheese, the protein content was lower than that of cheese. In 3 of 17 food groups, the salt content of pb alternatives was lower than in animal products. The daily requirement for iron could be covered better by pb alternatives than previously anticipated as well as the need for the vitamins E and K. The calculated Nutri-Score was generally lower for pb meat and higher for pb cheese than for the respective animal products. The trend towards consumption of pb alternative products is increasing, but the high level of processing, wide range of nutrients, and high salt content indicate the need for nutritional guidelines for these products.

Published

2022

36. Jasmonic and Abscisic Acid Contribute to Metabolism Re-adjustment in Strawberry Leaves under NaCl Stress

Author

Salma Jamalian, Christina Truemper, and Elke Pawelzik

Subjects

0106 biological sciences, Ecology, Jasmonic acid, 04 agricultural and veterinary sciences, Plant Science, Metabolism, Horticulture, 01 natural sciences, Salinity, chemistry.chemical_compound, chemistry, Botany, sense organs, skin and connective tissue diseases, 0405 other agricultural sciences, Agronomy and Crop Science, Abscisic acid, 010606 plant biology & botany, 040502 food science

Abstract

The aim of this research was to evaluate the effect of exogenous jasmonic acid and abscisic acid, at different salinity regimes, on primary and secondary metabolic changes in ʻKurdistanʼ and ʻQueen...

Published

2019

37. Vis-NIR Hyperspectral Imaging for Online Quality Evaluation during Food Processing: A Case Study of Hot Air Drying of Purple-Speckled Cocoyam (Colocasia esculenta (L.) Schott)

Author

Ayub Njoroge Gitau, John Ndisya, Duncan O. Mbuge, Liliana Badulescu, Barbara Sturm, Elke Pawelzik, Arman Arefi, and Oliver Hensel

Subjects

Multispectral image, Bioengineering, Feature selection, 570 Biologie, TP1-1185, phenolic compounds, Chemometrics, non-invasive measurements, Quality (physics), ddc:570, water activity, Chemical Engineering (miscellaneous), Air drying, QD1-999, Hue, Remote sensing, Mathematics, moisture content, structural morphology, CIE L*a*b, Process Chemistry and Technology, Chemical technology, browning index, rehydration ratio, Hyperspectral imaging, Colocasia esculenta, Chemistry, antioxidants, shrinkage

Abstract

In this study, hyperspectral imaging (HSI) and chemometrics were implemented to develop prediction models for moisture, colour, chemical and structural attributes of purple-speckled cocoyam slices subjected to hot-air drying. Since HSI systems are costly and computationally demanding, the selection of a narrow band of wavelengths can enable the utilisation of simpler multispectral systems. In this study, 19 optimal wavelengths in the spectral range 400–1700 nm were selected using PLS-BETA and PLS-VIP feature selection methods. Prediction models for the studied quality attributes were developed from the 19 wavelengths. Excellent prediction performance (RMSEP &lt, 2.0, r2P &gt, 0.90, RPDP &gt, 3.5) was obtained for MC, RR, VS and aw. Good prediction performance (RMSEP &lt, 8.0, r2P = 0.70–0.90, RPDP &gt, 2.0) was obtained for PC, BI, CIELAB b*, chroma, TFC, TAA and hue angle. Additionally, PPA and WI were also predicted successfully. An assessment of the agreement between predictions from the non-invasive hyperspectral imaging technique and experimental results from the routine laboratory methods established the potential of the HSI technique to replace or be used interchangeably with laboratory measurements. Additionally, a comparison of full-spectrum model results and the reduced models demonstrated the potential replacement of HSI with simpler imaging systems.

Published

2021

38. Author Correction: Root growth in light of changing magnesium distribution and transport between source and sink tissues in potato (Solanum tuberosum L.)

Author

Merle Katharina Winkelmann, Mario Hasler, Elke Pawelzik, Mirjam Koch, and Marcel Naumann

Subjects

Root growth, Source–sink dynamics, Multidisciplinary, Distribution (number theory), Magnesium, lcsh:R, chemistry.chemical_element, lcsh:Medicine, Biology, Solanum tuberosum, Horticulture, chemistry, lcsh:Q, Author Correction, lcsh:Science

Abstract

An amendment to this paper has been published and can be accessed via a link at the top of the paper.

Published

2020

39. The Importance of Nutrient Management for Potato Production Part II: Plant Nutrition and Tuber Quality

Author

Marcel Naumann, Elke Pawelzik, Heike Thiel, Andreas Gransee, and Mirjam Koch

Subjects

0106 biological sciences, business.industry, Nutrient management, Starch, Flesh, fungi, food and beverages, 04 agricultural and veterinary sciences, Biology, 01 natural sciences, Horticulture, chemistry.chemical_compound, Nutrient, chemistry, Agriculture, 040103 agronomy & agriculture, 0401 agriculture, forestry, and fisheries, Dry matter, Cultivar, business, Agronomy and Crop Science, Plant nutrition, 010606 plant biology & botany, Food Science

Abstract

The term ‘quality’ is a complex parameter in the field of potato production, and the desired quality traits depend on the intended use. Important internal quality traits for potatoes are tuber flesh discolouration, dry matter, and starch content. External quality traits include tuber size and shape as well as resistance against mechanical stress during and after harvest. These quality traits are closely interrelated and genetically controlled. It has been demonstrated that all these parameters are also linked to the nutrient status of the plant and/or the tubers. For instance, the susceptibility of tubers for discolouration of both fresh market and processed cultivars is closely related not only to the nutrient supply but also to post-harvest treatment. Besides, the potential to form carcinogenic compounds like acrylamide from precursors during the deep-frying of potato products and the accumulation of toxic substances like glycoalkaloids are important quality criteria in terms of food safety. The influence of the supply of nutrients on potato tuber quality depends initially on their physiological functions, but the ratio to other nutrient needs should also be taken into account.

Published

2019

40. The Importance of Nutrient Management for Potato Production Part I: Plant Nutrition and Yield

Author

Heike Thiel, Mirjam Koch, Andreas Gransee, Elke Pawelzik, and Marcel Naumann

Subjects

0106 biological sciences, Abiotic component, Biotic component, Nutrient management, business.industry, 04 agricultural and veterinary sciences, Biology, 01 natural sciences, Crop, Nutrient, Agronomy, Agriculture, Yield (wine), 040103 agronomy & agriculture, 0401 agriculture, forestry, and fisheries, business, Agronomy and Crop Science, Plant nutrition, 010606 plant biology & botany, Food Science

Abstract

As part of a successful agronomic strategy, adequate nutrient management of the potato crop is essential throughout the whole growth period. In this review, the importance of balanced fertilisation for potato yield formation and yield security is addressed by taking advantage of the results of field trials and existing literature. The most important roles of the macronutrients nitrogen, phosphorous, potassium, magnesium, calcium and sulphur in the plant and their importance for yield formation in potato are reviewed. Fertilisation practices in potato production are discussed. Due to their various functions in plant metabolism, the impact of plant nutrients on potato yield is complex. Therefore, interactions with abiotic and biotic factors, for instance interactions between two different plant nutrients in the soil and the plant, are taken into account.

Published

2019

41. Organically grown outdoor tomato: fruit mineral nutrients and plant infection by Phytophthora infestans

Author

Bernd Horneburg, Inga Smit, Elke Pawelzik, Anna J. Keutgen, and Afrah E. Mohammed

Subjects

chemistry.chemical_classification, biology, fungi, food and beverages, 04 agricultural and veterinary sciences, 010501 environmental sciences, biology.organism_classification, Ascorbic acid, 01 natural sciences, Horticulture, Nutrient, chemistry, Phytophthora infestans, 040103 agronomy & agriculture, Mineral (nutrient), 0401 agriculture, forestry, and fisheries, Dry matter, General Agricultural and Biological Sciences, Carotenoid, 0105 earth and related environmental sciences

Abstract

Tomato fruits are characterized by a good nutritional profile, including sugars and bioactive compounds such as carotenoids, phenolic compounds, ascorbic acid, and mineral nutrients. The objective of this study was to determine the mineral nutrient content of 28 tomato genotypes from field trials from the Organic Outdoor Tomato Project. Outdoor production as a very resource-efficient production method is limited by infections with Phytophthora infestans in the research area. The relationship between mineral nutrients and fruit infection with P. infestans was estimated. Experiments were carried out in 2004 and 2005 at two locations in Central Germany. Tomato fruits from diverse genetic backgrounds differed significantly in mineral nutrients and dry matter content. For Ca, Fe, Zn, and Mn, higher maximum contents were found than those in past experiments. Low genotypic effects were observed for Fe and Zn. Environmental conditions induced variation in the mineral status of tomato genotypes. All traits but the Mn content interacted significantly with the environment. Outdoor tomatoes can contribute significantly to human diets. The observed significant differences between genotypes for almost all investigated traits allow improving organic tomato production and breeding.

Published

2019

42. Improvement of cocktail tomato yield and consumer‐oriented quality traits by potassium fertilization is driven by the cultivar

Author

Frederike Sonntag, Inga Smit, Elke Pawelzik, and Marcel Naumann

Subjects

030309 nutrition & dietetics, Potassium, Color, chemistry.chemical_element, Titratable acid, Biology, engineering.material, 03 medical and health sciences, 0404 agricultural biotechnology, Human fertilization, Solanum lycopersicum, Soluble solids, Yield (wine), Humans, Dry matter, Cultivar, Fertilizers, 2. Zero hunger, Minerals, 0303 health sciences, Nutrition and Dietetics, 04 agricultural and veterinary sciences, Consumer Behavior, 040401 food science, Horticulture, chemistry, Fruit, Taste, engineering, Fertilizer, Agronomy and Crop Science, Food Science, Biotechnology

Abstract

The market for cocktail tomatoes is growing continuously, mainly because of their good taste. Titratable acids (TA), total soluble solids (TSS) and dry matter (DM) contents correlate positively with good taste. So far, the impact of different potassium (K) applications on yield and consumer-oriented quality traits has not been comprehensively described for cultivars of smaller fruits. To fill this gap, we tested the effect of different K fertilization regimes on three cultivars of small-sized or cocktail tomatoes. RESULTS A positive impact on quality parameters (TSS, TA, DM, color and firmness) was detected by raising the K fertilizer application for the cocktail tomato cultivars Primavera and Yellow Submarine. The cultivar Resi showed no response to fertilization, except for TSS and TA. Yield increased significantly by higher K application only in Primavera, the most productive cultivar. The K concentration in tomato rose with increasing K application. CONCLUSION Because TSS and TA increased in all cultivars, whereas only one cultivar showed an increase in yield, the results of the present study emphasize the importance of the application of cultivar-specific mineral fertilizers on yield- and consumer-oriented quality traits. ? 2018 Society of Chemical Industry

Published

2019

43. A Comparative Analysis of Plant-Based Milk Alternatives Part 2: Environmental Impacts

Author

Katrin Geburt, Elke Herta Albrecht, Marcel Pointke, Elke Pawelzik, Martina Gerken, and Imke Traulsen

Subjects

Renewable Energy, Sustainability and the Environment, Geography, Planning and Development, almond drinks, dairy milk, environmental impact, life cycle assessment, oat drinks, plant-based milk alternatives, soy drinks, Building and Construction, Management, Monitoring, Policy and Law

Abstract

Human food production is the largest cause of global environmental changes. Environmental benefits could be achieved by replacing diets with a high amount of animal-sourced foods with more plant-based foods, due to their smaller environmental impacts. The objective of this study was to assess the environmental impacts of the three most common plant-based milk alternatives (PBMAs)—oat, soy, and almond drink—in comparison with conventional and organic cow milk. Life cycle assessments (LCA) were calculated by the ReCiPe 2016 midpoint method, in addition to the single issue methods “Ecosystem damage potential” and “Water scarcity index”. PBMAs achieved lower impact values in almost all 12 of the calculated impact categories, with oat drink and the organic soy drink being the most environmentally friendly. However, when LCA results were expressed per energy and by the protein content of the beverages, the ranking of the beverages, in terms of their environmental impacts, changed greatly, and the results of PBMAs approached those of milk, particularly with regard to the protein index. The study highlights the importance of considering a broader range of impact categories when comparing the impacts of PBMAs and milk.

Published

2022

44. A Comparative Analysis of Plant-Based Milk Alternatives Part 1: Composition, Sensory, and Nutritional Value

Author

Marcel Pointke, Elke Herta Albrecht, Katrin Geburt, Martina Gerken, Imke Traulsen, and Elke Pawelzik

Subjects

Renewable Energy, Sustainability and the Environment, Geography, Planning and Development, Building and Construction, Management, Monitoring, Policy and Law, almond drinks, micronutrients, milk substitutes, non-dairy beverages, oat drinks, sensory evaluation, soy drinks

Abstract

Consumers are becoming increasingly interested in reducing the consumption of animal-based foods for health, sustainability, and ethical reasons. The food industry is developing products from plant-based ingredients that mimic animal-based foods’ nutritional and sensory characteristics. In this study, the focus is on plant-based milk alternatives (PBMAs). A potential problem with plant-based diets is the deficiency of important micronutrients, such as vitamin B12, B2, and calcium. Therefore, an analysis of micronutrients in PBMAs was conducted to assess their nutritional value. The second main focus was on the sensory description of the PBMAs, done by a trained panel, and instrumental assessment to characterize the sensory attributes. Almond drinks met the daily micronutrient requirements the least, while soy drinks came closest to cow’s milk in macro- and micronutrients. The experimentally determined electronic tongue and volatile compound results confirmed the sensory panel’s evaluations and could therefore be used as a method for easy and effective assessments of PBMAs. The PBMAs evaluated in this study could not completely replace cow’s milk’s nutritional and sensory properties. They are products in their own product group and must be evaluated accordingly. Given the variety of products, consumers should experiment and make their decisions regarding the substitution of cow’s milk.

Published

2022

45. Morphological and Metabolite Responses of Potatoes under Various Phosphorus Levels and Their Amelioration by Plant Growth-Promoting Rhizobacteria

Author

Leangsrun Chea, Birgit Pfeiffer, Dominik Schneider, Rolf Daniel, Elke Pawelzik, and Marcel Naumann

Subjects

plant growth-promoting rhizobacteria, QH301-705.5, secondary metabolites, fungi, food and beverages, Plant Development, Phosphorus, Plant Roots, Article, phosphorus toxicity, Plant Leaves, Chemistry, Rhizobiaceae, Stress, Physiological, metabolite profiling, potato, mineral nutrients, Biology (General), QD1-999, phosphorus deficiency, plant biomass, Solanum tuberosum

Abstract

Low phosphorus (P) availability is a major limiting factor for potatoes. P fertilizer is applied to enhance P availability, however, it may become toxic when plants accumulate at high concentrations. Therefore, it is necessary to gain more knowledge of the morphological and biochemical processes associated with P deficiency and toxicity for potatoes, as well as to explore an alternative approach to ameliorate the P deficiency condition. A comprehensive study was conducted (I) to assess plant morphology, mineral allocation, and metabolites of potatoes in response to P deficiency and toxicity, and (II) to evaluate the potency of plant growth-promoting rhizobacteria (PGPR) in improving plant biomass, P uptake, and metabolites at low P levels. The results revealed a reduction in plant height and biomass 60–80% under P deficiency compared to P optimum. P deficiency and toxicity conditions also altered the mineral concentration and allocation in plants due to nutrient imbalance. The stress induced by both P deficiency and toxicity was evident from an accumulation of proline and total free amino acids in young leaves and roots. Furthermore, root metabolite profiling revealed that P deficiency reduced sugars by 50–80% and organic acids by 20–90%, but increased amino acids by 1.5–14.8 times. However, the effect of P toxicity on metabolic changes in roots was less pronounced. Under P deficiency, PGPR significantly improved the root and shoot biomass, total root length, and root surface area by 32–45%. This finding suggests the potency of PGPR inoculation to increase potato plant tolerance under P deficiency.

Published

2021

46. Effects of processing on nutrient composition in guava- and jackfruit-based snacks

Author

Sirui, Xing, primary, Gudrun, B. Keding, additional, and Elke, Pawelzik, additional

Published

2021

47. The effect of potassium fertilization on the metabolite profile of tomato fruit (Solanum lycopersicum L.)

Author

Sabine E. Kulling, Frederike Sonntag, Björn Egert, Christoph H. Weinert, Inga Smit, and Elke Pawelzik

Subjects

0106 biological sciences, 0301 basic medicine, Physiology, Metabolite, Potassium, chemistry.chemical_element, Plant Science, 01 natural sciences, 03 medical and health sciences, chemistry.chemical_compound, Human fertilization, Solanum lycopersicum, Genetics, Asparagine, Cultivar, Fertilizers, 2. Zero hunger, biology, fungi, food and beverages, Primary metabolite, biology.organism_classification, Horticulture, 030104 developmental biology, chemistry, Fruit, Putrescine, Solanum, 010606 plant biology & botany

Abstract

1. Abstract The macronutrient potassium (K) has vital physiological functions in plants and its availability can strongly impact quality of crops like tomato. The impact of K nutrition on conventional tomato fruit quality parameters has been described several times, but detailed investigations on the effect of K supply on the fruit metabolite profile are still rare. To fill this gap, we investigated the influence of K fertilization on the metabolite profile of tomato fruits. For this purpose, an outdoor pot experiment with three different cocktail tomato cultivars was performed. A fertilization regimen with five K levels was applied, ranging from deficiency to sufficient supply. Fruit samples were analyzed by untargeted GC×GC-MS to cover the primary metabolite profile as well as some secondary metabolites. As verified using ICP-OES, fruit K content was highly proportional to the supplied amount of K. At the metabolite profile level, the most prominent and cultivar-independent effect of increased K fertilization was the rise of tricarboxylic acid (TCA) cycle intermediates. Further effects were more cultivar-specific, for example an increase of the mobile nitrogen pool (e.g. amines like putrescine and amides like asparagine), changes in the profile of minor sugars (especially disaccharides) as well as higher levels of some secondary metabolites. Pronounced response patterns were mainly observed in the cultivars Primavera and Yellow Submarine that were recently characterized as higher yielding, demanding a stronger consideration of cultivar differences in future studies.

Published

2020

48. In vitro degradation of wheat gluten fractions by Fusarium graminearum proteases

Author

Hashadrai M. Rawel, Kai Eggert, and Elke Pawelzik

Subjects

0106 biological sciences, Fusarium, Proteases, Chemistry(all), Fractionation, Gluten, Gliadin and glutenin fractions, Peptides, Serine and trypsin protease, 01 natural sciences, Biochemistry, digestive system, Industrial and Manufacturing Engineering, 0404 agricultural biotechnology, Glutenin, Chemistry, Agriculture, Biotechnology, Forestry, Food Science, Analytical Chemistry, Storage protein, ddc:630, 2. Zero hunger, chemistry.chemical_classification, biology, nutritional and metabolic diseases, food and beverages, 04 agricultural and veterinary sciences, General Chemistry, biology.organism_classification, 040401 food science, digestive system diseases, biology.protein, Institut für Ernährungswissenschaft, ddc:640, Mathematisch-Naturwissenschaftliche Fakultät, Digestion, Gliadin, 010606 plant biology & botany

Abstract

Fusarium spp. infection of cereal grain is a common problem, which leads to a dramatic loss of grain quality. The aim of the present study was to investigate the effect of Fusarium infection on the wheat storage protein gluten and its fractions, the gliadins and glutenins, in an in vitro model system. Gluten proteins were digested by F. graminearum proteases for 2, 4, 8 and 24 h, separated by Osborne fractionation and characterised by chromatographic (RP-HPLC) and electrophoretic analysis (SDS-Page). Gluten digestion by F. graminearum proteases showed in comparison with gliadins a preference for the glutenins whereas the HMW subfraction was at most affected. In comparison with a untreated control, the HMW subfraction was degraded of about 97% after 4 h incubation with Fusarium proteases. Separate digestion of gliadin and glutenin underlined the preference for HMW-GS. Analogue to the observed change in the gluten composition, the yield of the proteins extracted changed. A higher amount of glutenin fragments was found in the gliadin extraction solution after digestion and could mask a gliadin destruction at the same time. This observation can contribute to explain the frequently reported reduced glutenin amount parallel to an increase in gliadin quantity after Fusarium infection in grains.

Published

2020

49. Near infrared spectroscopy as a fast and non-destructive technique for total acidity prediction of intact mango: Comparison among regression approaches

Author

Agus Arip Munawar, null Zulfahrizal, Hesti Meilina, and Elke Pawelzik

Subjects

Forestry, Horticulture, Agronomy and Crop Science, Computer Science Applications

Published

2022

50. Influence of weather conditions on the activity and properties of alpha-amylase in maize grains

Author

Hanadi Riyad Aljabi and Elke Pawelzik

Subjects

Biochemistry, Food Science

Published

2022