Nutritional value of broad bean seeds. Part 1: Starch and fibre

This paper characterizes starch and dietary fibre in the seeds of fine-size and large-size seed varieties of broad bean and in edible varieties of pea for comparison. The experimental material included seeds at full physiological maturity. The fine-size seed varieties of broad bean, Gobik and Goral, contained slightly less total starch (62.32% and 62.19% of dry matter) than the large-size seed varieties, Windsor Bialy and Bartom (65.32% and 65.26% of dry matter). It was shown that fine-size seed varieties of broad bean are a good source of resistant starch, which is comparable to large-size seed varieties. As far as the content of total starch is concerned, the share of this form of starch in broad bean seeds amounted to 1/3. Digestible starch in broad beans was in the range of 39-42% of dry matter, pea contained approximately one half less starch of this type. Moreover, it was found that the relation of rapidly digestible starch to slowly digestible starch amounted to 1:1 irrespective of broad bean variety. Dietary fibre in broad beans was in the range of 20.36%-26.79% of dry matter while half of it was found to be concentrated in the seed coat. The soluble fraction of the total content of fibre amounted to 11.81% in the Bartom variety and up to 15.89% in the Gobik variety.     

Anmerkungen zur Qualität der Erbsenstärke

Notes on the Quality of Pea Starch. The opening of additional markets for the starch industry needs partly starch qualities differing from those of common starches. Here, pea starch can be used successfully as our investigations show. Nevertheless, the extreme difference between the starches of the two botanical subspecies sativum (smooth) and medullare (wrinkled) of pisum sativum L. (pea) is of principle significance. With regard to our investigations it is a character for smooth peas having a starch content of about 50% i. dm, whereas wrinkled peas only reach values of about 30% i. dm. Regarding the size of the starch granules the smooth pea starches show a content of more than 50% small granules with diameters lower than 20 μm compared to wrinkled pea starches with even 100% small granules. The amylose contents of smooth pea starches exceed with 40% the values of the traditional starches but the contents of wrinkled pea starches are even about 70%.     

Screening of chickpea accessions for resistance against the pulse beetle,Callosobruchus chinensis L. (Coleoptera: Bruchidae)

During storage, chickpea (Cicer arietinum L.) is severely attacked by some bruchid species, especially Callosobruchus chinensis L. (Coleoptera: Bruchidae), resulting in losses in quantity and nutritional quality. In the present study, three species of Cicer including five accessions of Cicer arietinum L. (three kabuli and two desi chickpeas), four accessions of C. echinospermum P.H. Davis and five accessions of C. reticulatum Ladiz. were screened for resistance to C. chinensis in both free-choice and no-choice tests in the laboratory. Resistance was evaluated by measuring oviposition (number of eggs per seed), adult emergence (number of holes per seed), damaged seed rate and seed weight loss (%). The results revealed that no eggs were laid by the bruchid females to the C. echinospermum accessions in free-choice test, but in no-choice test only two C. echinospermum accessions (AWC 304 and AWC 305) had few eggs (4.3 and 3.3 eggs/seed, respectively). The highest rate of oviposition occurred in kabuli chickpeas, especially in YAR (25.1 eggs/seed in free-choice test). The accessions exhibited a similar pattern for adult emergence like in the oviposition rates. As for damaged seed rate, no damage was observed in both tests in the C. echinospermum accessions, except AWC 304 (6.7%) in no-choice test. The highest seed damage was seen in kabuli-type accessions, being 100% in YAR and ILC 8617. Considering seed weight loss, no weight loss occurred in the C. echinospermum accessions in both tests (except, AWC 304 in no-choice test) whereas the highest weight loss was seen in the kabuli-type accession, CA 2969 (28.6%) in free-choice test and in the desi type accession, ICC 4957 (35.0%) in no-choice test. Since lower numbers of eggs were laid on hairy, wrinkled/reticulated and dark seed accessions, these features seemed to be important in the preference of the bruchid for host selection and oviposition. These results suggest that resistant varieties can be used as gene sources in breeding new cultivars resistant to C. chinensis.     

Functional properties of yellow field pea (Pisum sativum L.) seed flours and the in vitro bioactive properties of their polyphenols

Functional and bioactive properties of yellow field pea (Pisum sativum L) seed flour, protein isolate (PPI), two high fibre products (Centara III, Centara IV), and one high fibre–starch ingredient (Uptake 80), were determined. The whole seed flour had superior water and oil absorption capacities but the high fibre flours had significantly higher (p < 0.05) swelling ability. Centara IV and Uptake 80 had the highest gel clarity while Centara IV gel was the most resistant to freeze–thaw treatment. Polyphenolic constituents were extracted singly or sequentially with aqueous methanol and acetone; the whole pea seed flour and the pea protein isolate had significantly more polyphenolic constituents than the fibre products, which also resulted in higher in vitro antioxidant activities (trolox equivalent antioxidant capacity and diphenyl-picryl hydrazyl free radical scavenging ability). Results of renin- and ACE-inhibitory activities were mixed and did not correspond to the overall polyphenolic content and antioxidant test results, probably indicating the importance of components specific to individual extracts.     

Variation of carbohydrate composition of two forms of fruit from jack tree (Artocarpus heterophyllus L.) with maturity and climatic conditions

Soft and firm varieties of jackfruit of three stages of maturity (7–8, 10–12, and 14–16 weeks), harvested from the central, western and eastern parts of Bangladesh, were analysed. The dry matter content of perianth and seed of the soft and firm varieties increased from 10.0 to 32.0% and 19.0 to 52.0%, respectively, while the ash content decreased from 5.7 to 2.0% and 4.9 to 1.5%, respectively, on a dry matter basis. The free sugars of jackfruit samples increased with maturity from 1.5 to 10.5% and 1.4 to 5.2% of their dry matter for the soft and firm varieties, respectively. In all cases varying proportions of glucose, fructose and sucrose were the major sugar constituents. The starch content of the perianth samples increased from 7.8 to 47.0% and from 9.0 to 50.5%, on a dry matter basis for the soft and firm varieties, respectively, whereas, that for seed increased up to 65.0 and 59.0%, respectively. Microscopic examination of the samples showed the perianth to contain thin-walled cells packed with starch granules, some organized into distinct clusters. From both the chemical and histological studies, it appeared that the starch content of both perianth and seed of soft and firm varieties of jackfruit samples gradually increased with the increase of maturity. The total dietary fibre varied from 42.0 to 55.0% in the perianth. However, that of seed changed very little. The results show that the starch and total dietary fibre contents of jackfruit are higher than those of other fruits and vegetables of Bangladesh. ©     

Reduction efficiency of the neurotoxin β‐ODAP in low‐toxin varieties of Lathyrus sativus seeds by solid state fermentation with Aspergillus oryzae and Rhizopus microsporus var chinensis

Solid state fermentation of several low‐toxin varieties of grass pea (Lathyrus sativus L) seeds with Aspergillus oryzae and Rhizopus microsporus var chinensis removed the neurotoxin β‐ODAP (3‐N‐oxalyl‐L ‐2,3‐diaminopropanoic acid) to a considerable degree from the seed meal. The detoxification efficiency was statistically significant and ranged from 52.4% (p < 0.01) to 82.2% (p < 0.001), which was lower than for a high‐toxin variety processed by the same fermentation procedure (94.8%, p < 0.001). While the content of β‐ODAP decreased, those of other free protein amino acids, especially glutamic acid, histidine, threonine, tyrosine, valine and lysine, increased dramatically in the fermented seeds. Efforts to remove the neurotoxin from Lathyrus sativus either by breeding or by food processing to obtain toxin‐free grass pea seeds have been made worldwide for several decades. The efficiencies of various reported processing methods are summarised and compared. © 2000 Society of Chemical Industry     

Effect of Pisum sativum fractions on the mortality and progeny production of nine stored-grain beetles

Yellow field pea (Pisum sativum L.) fractions that were mainly protein (50%), fibre (90%) or starch (85%) were obtained from a commercial pea mill and mixed with wheat kernels or wheat flour. Based on the mortality and the number of offspring produced, protein-rich pea flour was more toxic than fibre, which was more toxic than starch. For the protein-rich pea flour mixed with wheat kernels, the most sensitive insects were Sitophilus oryzae (L.), Sitophilus zeamais Motschulsky and Sitophilus granarius (L.), followed by Cryptolestes ferrugineus (Stephens) which was more sensitive than Tribolium castaneum (Herbst) and Rhyzopertha dominica (F.). For the protein-rich pea flour mixed with wheat flour, Cryptolestes pusillus (Schönherr) was most sensitive, followed by C. turcicus (Grouvelle) and T. confusum (Jacquelin du Val), with T. castaneum being the most resistant. Although protein-rich pea flour did not kill adults to a great extent when mixed with flour, it reduced offspring production significantly. Again C. pusillus was the most sensitive, followed by T. confusum, with T. castaneum offspring being the most resistant. The insecticidal activity of pea fractions decreased after treated wheat kernels were held at 30 °C, 70% r.h. for 8 months. The potential of using pea fractions to control stored-product insects is discussed.     

Structural and functional properties of starches from field peas

Starch was isolated from seven varieties of field peas (Pisumsativum L.) and characterised using a combination of physical, chemical and functional tests. The total starch content of the peas ranged between 34% and 42.7% of dry matter, and the amylose content of the starch was between 35% and 38%. Average particle diameter of the seven starches varied between 21.4 and 26.1 μm. All of the pea starches gave a typical C-type X-ray diffraction pattern, with relative crystallinity ranging between 36% and 55% and the proportion of B-type crystallites between 3.8% and 30.4%. Although there were only small differences between the starches in amylose content, they displayed significant variability in functional properties, including swelling power, pasting characteristics, thermal transition temperatures in the differential scanning calorimeter, and in susceptibility to invitro attack by α-amylase. The results indicate the importance of structural characteristics of starch molecules, particularly amylopectin, as determinants of the properties of native starch granules.     

Effect of Callosobruchus chinensis (L.) (Coleoptera: Bruchidae) on carbohydrate content of chickpea,green gram and pigeon pea

Effect of Callosobruchus chinensis (L.) infestation was seen on the carbohydrate and dietary fibre content of chickpea, green gram and pigeon pea at 10, 20, 30, 40, 50 and 60 per cent levels of infestation. With increase in level of infestation energy, starch, total sugars and non-reducing sugars decreased, whereas significant increase in the reducing sugars, crude fibre, neutral detergent fibre, acid detergent fibre, hemicellulose, cellulose and lignin was observed.     

Starch characteristics of dry peas (Pisum sativum L.) grown in the USA

Starch samples from seven major dry pea (Pisum sativum L.) cultivars grown in North Dakota, US was isolated and their physicochemical properties investigated. The objective of the study was to establish the basic foundation of advanced research on physical and chemical modification to improve the functionality of dry pea starches grown in the region. Isolated starch samples were analysed by high performance size exclusion chromatography (HPSEC). Amylose percentages were in the range of 32.2–41.1%. Granules were elliptical or spherical with smooth surfaces based on microscopic analysis. Starch samples had similar gelatinisation transition temperatures and displayed ‘C patterns’. The swelling factors of dry pea starches influenced by temperature were determined at 10° intervals between 50 and 90 °C with continuous mixing. The pasting profiles were studied using a rapid visco analyzer (RVA), which exhibited different pasting profiles. This study indicated that dry pea cultivars grown in the region possess starch with different physicochemical characteristics.     

Effects of yellow mustard mucilage on functional and rheological properties of buckwheat and pea starches

The effects of yellow mustard mucilage (YMM) on the functional and rheological properties of buckwheat and pea starch were studied. Addition of YMM resulted in a marked increase of peak viscosity for both buckwheat and pea starches. Dynamic oscillation measurements showed that the storage modulus (G′), loss modulus (G″) and dynamic viscosity (η*) of buckwheat and pea starches were increased but tangent δ was decreased by addition of YMM. The gel textures of both starches were markedly changed by the presence of YMM, which resulted in an increase of hardness, adhesiveness and chewiness but a decrease of resilience. Differential scanning calorimetry showed that the presence of YMM slightly increased melting enthalpy (ΔH) and the phase transition temperature range (T_c–T_o) of buckwheat starch but these did not change much for pea starch. Addition of YMM–locust bean gum mixture (9:1) similarly increased the viscosity of buckwheat and pea starches but decreased gel hardness. The swelling powers of both starches and solubility of buckwheat starch were slightly decreased in the presence of YMM. Addition of YMM slowed the syneresis of buckwheat and pea starch gels.     

Characterization of new sources of mungbean (Vigna radiata (L.) Wilczek) resistance to bruchids, Callosobruchus spp. (Coleoptera: Bruchidae)

The bruchid beetles Callosobruchus chinensis (L.) and C. maculatus (F.) are destructive pests of stored mungbean (Vigna radiata (L.) Wilczek). The development of resistant mungbean varieties to manage bruchids is a major breeding objective. In the present study, we investigated the characteristics of resistance to C. chinensis and C. maculatus in two new resistant mungbean accessions V1128 and V2817, and two previously reported resistant accessions V2709 and V2802, compared to the susceptible mungbean cultivar, KPS1. Evaluation for resistance to both bruchid species using whole and decorticated seeds revealed that V1128 and V2817 were free from damage, V2709 and V2802 showed partial damage with low or moderate number of bruchids emerging from seeds, and KPS1 showed complete damage with the highest number of bruchids emerged. Comparison of the seeds harvested at seed filling, early maturity and full maturity stages revealed that the percentage of damaged seeds from resistant accessions was lower at all stages compared with KPS1. V1128 and V2817 showed complete resistance against both bruchids regardless of when their seeds were harvested, while resistance in V2709 and V2802 were most pronounced at full maturity, and KPS1 was totally damaged at all times tested. These results suggest that the chemical factor(s) conferring resistance is synthesized as early as the seed filling stage. Evaluation of resistance using artificial seeds showed that increasing the percentage of resistant seed powder adversely affected bruchid growth and development. The number of adults emerging from seeds and number of damaged seeds decreased while adult developmental period increased as the proportion of resistant seed powder increased. The weight of emerging male and female adults of C. maculatus was lighter than those from the seeds containing susceptible seed powder alone. However, C. chinensis adults were not affected by the same test. The results suggest that biochemical(s) in cotyledon tissue are responsible for the resistance and the seed coat had no protective role against the bruchids. Although all four resistant accessions evaluated are useful for mungbean breeding, V1128 and V2817 show complete resistance to both C. chinensis and C. maculatus. Thus, these two new resistant sources may be the most effective for breeding purposes.     

Effect of cultivar and environment on physicochemical and cooking characteristics of field pea (Pisum sativum)

The effects of cultivar, growing location and year on physicochemical and cooking characteristics of field pea (Pisum sativum) were investigated and the relationship between these characteristics was determined. Six diverse field pea cultivars were grown in five different growing locations for two subsequent years (2006 and 2007). Cultivar, location and year had a significant effect on the seed weight, seed size, water hydration capacity, cooking time and firmness of cooked peas. Significant cultivar and location differences in protein, starch, crude fibre, fat, ash and phytic acid contents of peas were observed. Most of the traits were significantly affected by the interactions: cultivar-by-location, cultivar-by-year and location-by-year. Both seed weight and seed size were negatively correlated with crude protein and crude fibre contents. Cooking time was negatively correlated with crude fibre, ash and phytic acid contents, but positively correlated with firmness and starch content. A significant positive correlation was observed between ash content and phytic acid level in peas.     

Simultaneous estimation of amylose,resistant, and digestible starch in pea flour by visible and near-infrared reflectance spectroscopy

Due to its health benefits, resistant starch (RS) has received increasing attention from the public, and there is a need to develop methods to measure the amylose and RS concentration in pea (Pisum sativum L.) flour. The aim of this study was to develop a visible and near-infrared reflectance (vis–NIR) model for the simultaneous determination of amylose, RS, and digestible starch (DS) in pea flour. A total of 123 dry pea samples consisting of different pea varieties grown in different environments were collected, and ground to flour, and then the vis–NIR spectra were scanned. The amylose, RS, and DS contents of the pea flours were also measured by an enzymatic colorimetric assay. The spectra data were calibrated with the enzymatic colorimetric-assayed values. Results showed that amylose, RS, and DS in the pea flours can be simultaneously estimated using the vis–NIR spectra. Instead of using the full spectrum (300–2300 nm), we found the most efficient wave bands lying in the visible region between 370 and 560 nm and the NIR spectra in the range of 1600–1800 nm. Using the stepwise regression with backward elimination method, the multiple linear regression (MLR) models were developed from the most efficient wavelengths. The MLR models had the determination coefficients R² of 0.95, 0.76, 0.80, and 0.88 for amylose, RS, DS, and total starch, respectively. The correlation coefficients between model estimated and the enzymatic colorimetric assayed values were 0.97, 0.80, 0.85, and 0.93 for amylose, RS, DS, and total starch, respectively.     

Differences in chemical composition of field pea (Pisum sativum) cultivars: Effects of cultivation area and year

The influence of the meteorological conditions during the cultivation year, along with the soil characteristics of the cultivation area, on nutrient and antinutrient compositions were evaluated for three field pea (Pisum sativum) cultivars. All varieties were cultivated in three different cultivation areas for two subsequent years. The location of the cultivation area significantly affected the proximate composition, sucrose, starch and non-starch polysaccharide contents, as well as the total tannin and phytic acid contents of peas. The cultivation year also affected all traits with the exception of starch. The major constituents of the pea seeds were significantly affected by the interaction between the cultivation area and the cultivation year. These results indicate that the composition of peas is highly dependent on the climate conditions, as well as on the soil characteristics of the cultivation area during the growing season.     

Assessment of in vitro antioxidant capacity of the seed coat and the cotyledon of legumes in relation to their phenolic contents

Methanolic extracts of the seed coat and the cotyledon of two varieties of lentils (Lens culinaris L.) and two varieties of dark peas (Pisum sativum L.), were analysed for their antioxidant capacities (EC₅₀), in the form of free radical-scavenging activities. Huge differences have been observed in the antioxidant capacity in the seed coat and the cotyledon in both legumes. The seed coat, in which are located, principally, phenolic compounds with flavonoid structures, presents higher antioxidant activity than the cotyledon in lentils and peas, showing differences in both species but not very large differences between varieties. An analysis of principal components was applied to the results in order to relate the antioxidant capacity of these legumes with their phenolic composition previously established by the authors.     

Starch characteristics of black bean,chick pea,lentil, navy bean and pinto bean cultivars grown in Canada

The physicochemical properties of starches from different cultivars of black bean, chick pea, lentil, navy bean, smooth pea and pinto bean were examined. Starch granule size ranged from 8 to 35 μm. The starch granules were round to elliptical with smooth surfaces. The total amylose content ranged from 23.0 to 29.5%, of which 6.0–14.9% was complexed by native lipid. All starches showed a ‘C’ type X-ray pattern. The peak at 2θ=5.54 (characteristic of B type starches) was most pronounced in pinto bean and black bean starches. Relative crystallinity followed the order: pinto bean>lentil∼smooth pea∼chick pea∼black bean∼navy bean. The swelling factor (at 80 °C) followed the order: black bean>smooth pea∼chick pea>lentil>navy bean>pinto bean, whereas, amylose leaching (at 80 °C) followed the order: lentil>smooth pea>chick pea>black bean>navy bean>pinto bean. Pinto bean starches showed the highest gelatinization transition temperatures and enthalpies of gelatinization, whereas, the highest gelatinization temperature range was exhibited by black bean starches. All legume starches exhibited high thermal stability during the holding cycle (at 95 °C) in the Brabender viscoamylogram. However, they differed significantly with respect to the viscosity at 95 °C and the degree of set-back. These differences were more pronounced in pinto bean starches. The extent of syneresis followed the order: black bean>chick pea∼lentil>smooth pea>navy bean>pinto bean. Differences in physicochemical properties were more marked among cultivars of black bean, and between cultivars of chick pea and smooth pea starches. This study showed that black bean and pinto bean starches differed significantly from each other, and from the other starches, with respect to the magnitude of interaction between starch chains within the amorphous and crystalline domains.     

Efficacy of ozone for Callosobruchus maculatus and Callosobruchus chinensis control in cowpea seeds and its impact on seed quality

The insecticidal efficacy of ozone was evaluated against the adults of Callosobruchus maculatus (F.) and C. chinensis L. on stored cowpea seeds under laboratory conditions. Ozone was assessed at concentrations of 0.25, 0.5, 1.0, 1.5, and 2.0 g/m³. The effect of ozone treatments on the adult mortality after 1, 3, 5 and 7 days of treatment, progeny production after 45 days, cowpea seed weight loss, seed germination and chemical constituents of cowpea seeds were determined. Adult mortality of C. maculatus and C. chinensis was improved with the increase in ozone concentration. Thus, all tested concentrations caused complete adult mortality of C. chinensis after 7 days of treatment, while the concentrations of 1.0, 1.5, and 2.0 g/m³ caused complete adult mortality of C. maculatus after the same periods. Progeny of both species was significantly decreased in all ozone concentrations after 45 days of treatment. Nevertheless, strong suppression in progeny production was achieved at the highest concentration of ozone (2.0 g/m³). Also, the ozone treatment at the highest concentration protected the cowpea seeds from damage caused by C. maculatus and C. chinensis for 45 days. In addition, there was no significant effect of ozone treatments on the cowpea seed germination compared with untreated seeds. Moreover, the chemical analysis of treated cowpea seeds showed a slight decrease in protein, fat, carbohydrate, moisture, total phenolics, total flavonoids and tannins contents, and a slight increase in fiber and ash contents compared with untreated cowpea seeds. Our findings suggest the ozone can be effectively used for the control C. maculatus and C. chinensis and can provide sufficient protection of stored cowpea seeds.     

Pea starch noodles: Effect of processing variables on characteristics and optimisation of twin-screw extrusion process

The effects of processing variables (moisture content, barrel temperature and screw speed) on the physicochemical, cooking and textural properties of pea starch noodles prepared by twin-screw extrusion were investigated using response surface methodology. Results indicated that increasing dough moisture content increased the b^∗ value (yellowness), expansion ratio, percentage of gelatinised starch, resistant starch content, cooking time, firmness and surface stickiness, but reduced cooking loss. Raising barrel temperature reduced cooking loss and cooked weight, but increased the expansion ratio, percentage of gelatinised starch, resistant starch, firmness and surface stickiness of cooked pea starch noodles. The b^∗ value, expansion ratio, percentage of gelatinised starch, resistant starch, cooking time, firmness and surface stickiness were increased as screw speed was increased, whereas the a^∗ value and cooked weight were reduced. The optimum processing conditions for pea starch noodle-making by twin-screw extrusion was established. Good agreement was noted between experimental values obtained at optimum process conditions and predicted values. Pea starch noodles prepared by twin-screw extrusion exhibited similar brightness in colour and cooking time to, but firmer texture than, commercial mung bean starch noodles.     

Changes in the structural and physicochemical characterization of pea starch modified by Bacillus-produced α-amylase

In this study, changes in structural and physicochemical properties of pea starch treated with Bacillus-produced α-amylase were determined. The results showed that enzymatically modified pea starch had lower amylose content and granule size but higher branching degree and relative crystallinity. After enzyme hydrolysis, the distribution of A and B1 chains slightly decreased, while the distribution of B2 and B3 chains increased lightly. Enzymatic hydrolysis preferentially occurred in the amorphous region and cannot change the crystalline structure of pea starch. Moreover, pea starch showed lower light transmittance, peak viscosity, breakdown viscosity, pasting temperature, shear viscosity, storage modulus and loss modulus, while the oil adsorption capacity and gelatinization enthalpy significantly increased with increasing α-amylase hydrolysis time. Correlation analysis indicated that α-amylase hydrolysis had different effects on different pea varieties. This research could provide ideas for exploring new applications for enzymatically modified pea starch in food industry.Industrial relevanceThis study found that Bacillus-produced α-amylase significantly changed the amylose content, granule size and viscosity of pea starch, which was helpful to further investigate the modified starch. This technology is expected to widen the applications of pea starch modified by Bacillus-produced α-amylase in food industry, for example as thickener, stabilizer and beverage, to improve the texture, stability and shelf-life of various food products.