Green Bean Plants Research Articles

Perbandingan Aplikasi Pupuk Organik Limbah Rumah Tangga dan Fases Sapi (Bos Taurus) dengan Pupuk Kimia

Livestock business has prospects to be developed because of the high demand for livestock products. So far, cow dung in the petiyen village has only been cleaned and thrown away for nothing without further use. One alternative to overcome this problem is to utilize cow manure as organic fertilizer. In addition to the waste generated from cows in general the petiyen community also produces waste from its household activities. Of the 2 types of organic waste in the form of cow waste and household waste will be processed into organic fertilizer which will be applied to rice and corn plants that are widely grown by farmers in Petiyen Village, Solokuro Subdistrict, Lamongan Regency. The purpose of this study was to determine the effect of the use of organic fertilizer on plant growth. This research method is experimental. The results showed that the average plant height was 13 cm for the use of organic fertilizer media only and 12 cm for mixed organic fertilizer and soil media, while for chemical fertilizer media could not grow. Root length on day 9, which uses 13 cm organic fertilizer media and which uses a mixture of organic fertilizer and 10 cm soil. it can be concluded that organic fertilizer affects the growth of green bean plants .

Citric acid and hydrogen sulfide application reduce silver nanoparticles damage in green bean (Phaseolus vulgaris) plants

Silver nanoparticles are being extensively used in a broad range of applications in our daily routine life. In the present study, it was investigated if citric acid (CA) and hydrogen sulfide (H2S) can mitigate adverse effects of silver nanoparticles (AgNPs) in green bean plants. Green bean seedlings were applied with AgNPs either through soil drenching or foliar spray and were then treated with different concentrations of citric acid and NaHS, as H2S donor. Results indicated that AgNPs induced several stresses in green bean plants. Concomitant foliar and soil appliaction of nanoparticles caused adverse effects on photosynthetic pigments and reduced carotenoid and protein contents, while increasing H2O2 content and superoxide dismutase (SOD), and ascorbate peroxidase (APX) activities. It was revealed that citric acid and H2S application significantly alleviated adverse effects of AgNPs. In the plants challenged with AgNPs, the highest rates of catalase (CAT), glutathione S-transferase (GSTs), and malondialdehyde (MDA) activities were recorded, while these parameters were reduced when plants were also treated with H2S. Application of 1.5 g/L of citric acid caused sharp decreases in CAT, GST and MDA activities. Among the treatments, the highest levels of APX, SOD, and anthocyanin were observed in the plants treated with AgNPs trough both foliar and soil drench method without citric acid and H2S treatment. The findings of the present study would increase our knowledge of the interaction of plants with heavy metals and would be useful for designing sophisticated methods for reducing the damages in the stressed plants.

Response of green snap bean plants to different plant densities and some chemical compounds under cool atmosphere condition

The present study was carried out during the two successive fall seasons of 2017 and 2018, at private farm in Kafr El-Sheik Governorate, under clay soil condition using furrow irrigation system. These experiments aimed to evaluate the effect of some combinations among four plant densities (20, 30, 40 and 60 plants/m2) with four types of chemical compounds (its symbols i.e., chemical compound 1, 2, 3 and 4) beside the control treatment on growth, yield and pods quality of snap bean (Phaseolus vulgaris L.) cv.Polista as a famous variety, grown under open field conditions. This study aimed to introduce a practical solution to resist atmospheric changes and instability in temperature and especially sudden sharp recursively during growth and fall season. All studied densities gave rise to a positive effect on plant growth expressed as plant height, number of branches per plant, number of leaves per plant, leaf area per plant, foliage fresh weight and foliage dry weight per plant compared with control treatments. Positive impact in comparison with the treatments of the promo, which recorded the highest values of vegetation such as plant height, number of branches per plant and number of leaves / plant when growing 40 plants/m2 and using chemical compound 2, while cultivating 30 plants/m² with chemical compound 1 gave the highest values of fresh and dry weight, Leaf area and the stem diameter. Regarding the influence of interference on the pod weight in the first season only, the length of the pod and the number of pods/plant in both seasons did not show any differences moral consequences, while cultivating 30 plants/m² with chemical compound 2 gave higher values for the pod weight in the second season, the length of the pod and the total yield, if using 30 plants/m² with chemical compound 1 record higher values for the pod thickness. Regarding the chemical content of the leaves as chlorophyll, nitrogen, potassium, recorded the highest values when growing 30 plants/m² with chemical compound 2, except the highest phosphorus values when planting 30 plants/m² with chemical compound 1. Also treatment 30 plants/m2 with chemical compound 1 gave higher values for the content of vitamin C, TSS and less fiber content and acidity and therefore get the high yield plus high quality.

Effect of almond shell addition to substrates in Phaseolus vulgaris L. (cv. Saxa) growth, and physiological and biochemical characteristics

PurposeIn the almond industry, the major by-product is the shell, the woody outer layer of the almond fruits. The goal of this research was to study the consequence of the incorporation of almond shell to cultivation substrates on green bean plant grown in a growth chamber.MethodsAlmond shell was mixed with peat (20%:80%) (AS), or used as mulch (AM) on top of the control (C) substrate (33.3%:66.6% vermiculite and peat). Evaluated parameters included green bean pod production and characteristics and their biochemical parameters, namely pigments, total phenolics and antioxidant activity, and soluble sugars and proteins, but also leaf gas exchange parameters.ResultsThe use of almond shell as a mulch resulted in unexpected higher crop growth rate, relative leaf growth rate, and leaf area index, with similar production and dimension of pods, when compared to the control assay, with comparable amounts of phenolic compounds, antioxidant capacity, and soluble sugars and proteins, even if gas exchange parameters were negatively affected. By other hand, the data from the almond shell:peat mixture indicate important increase of carotenoid content, contrasting to the control substrate.ConclusionThese results indicate that almond shell has some potential as growing medium for green bean cultivation, when mixed with peat or used as a mulch.

Conservation of Soil Moisture Using Mulch of Green Bean Plants (Vigna Radiata)

The aim to this study was to determine the effect of plastic silver mulch and rice straw mulch on soil moisture conservation of green bean so that the plant can grow in dry season with enough water. The method used in this study was a randomized block design with three treatments: no mulch (T0), plastic silver mulch (T1) and rice straw mulch (T2). The parameters observed were physical soil of initial and final research, soil moisture measurements every 3 days, as well as growth and crop production parameters including plant height, number of seeds in pods, 100 seeds weight, sample plant production and total production. The results showed that the physical of soil analyzed were clay textured soil, preliminary porosity 60.77 and at the end of the study increased to 77.50%, organic matter 1.52%, initial bulk density 1.04 g/cm3 at the end of the study decreased to 0.60 g/cm3, soil permeability of 7.77 cm / hour and available water is 13.95%. The use of rice straw mulch from the beginning to the end of the study showed the best water content while the use of plastic silver mulch and no mulch showed water content not much different. The use of palstic silver mulch gives the highest yield of the best crops on 14 HST measurements where the plastic silver mulch differs markedly by the rice straw mulch and no mulch. The yield of green beans produced in the treatment of plastic silver mulch using the best results with a total production of 2.00 tons/ha, this result is significantly different from no mulch but not significantly different of rice straw mulch. Rice straw mulch is better used for soil conservation because it can improve soil aeration, retain water, prevent soil erosion, and increase organic matter on the soil.

First natural crossover recombination between two distinct species of the family Closteroviridae leads to the emergence of a new disease.

Lettuce chlorosis virus-SP (LCV-SP) (family Closteroviridae, genus Crinivirus), is a new strain of LCV which is able to infect green bean plants but not lettuce. In the present study, high-throughput and Sanger sequencing of RNA was used to obtain the LCV-SP full-length sequence. The LCV-SP genome comprises 8825 nt and 8672 nt long RNA1 and RNA2 respectively. RNA1 of LCV-SP contains four ORFs, the proteins encoded by the ORF1a and ORF1b are closely related to LCV RNA1 from California (FJ380118) whereas the 3´ end encodes proteins which share high amino acid sequence identity with RNA1 of Bean yellow disorder virus (BnYDV; EU191904). The genomic sequence of RNA2 consists of 8 ORFs, instead of 10 ORFs contained in LCV-California isolate. The distribution of vsiRNA (virus-derived small interfering RNA) along the LCV-SP genome suggested the presence of subgenomic RNAs corresponding with HSP70, P6.4 and P60. Results of the analysis using RDP4 and Simplot programs are the proof of the evidence that LCV-SP is the first recombinant of the family Closteroviridae by crossover recombination of intact ORFs, being the LCV RNA1 (FJ380118) and BnYDV RNA1 (EU191904) the origin of the new LCV strain. Genetic diversity values of virus isolates in the recombinant region obtained after sampling LCV-SP infected green bean between 2011 and 2017 might suggest that the recombinant virus event occurred in the area before this period. The presence of LCV-SP shows the role of recombination as a driving force of evolution within the genus Crinivirus, a globally distributed, emergent genus.

Growth and Quality of Green Bean (Phaseolus vulgaris L.) under Foliar Application of Organic-Chelate Fertilizers

Abstract Organic-based chelate fertilizers can effectively improve nutrient uptake and use efficiency of plants. In the present study, foliar applications of three organic-chelate fertilizers on green bean (Phaseolus vulgaris L.) plants were compared to soil application of a mix chemical fertilizer (NPK) under greenhouse conditions. The treatments were foliar application (six sprays at 0.2% concentration) of Biomin, Humifolin, DelfonPlus, a mixture of micro and macronutrients, soil application of chemical fertilizer (NPK 0.5 g.kg-1 soil), and no fertilizer control. Foliar applications of organic-chelate fertilizers improved plant height, leaf area, shoot dry weight, leaf N and K concentration, pod number and pod yield compared to control plants. Pod soluble solids, vitamin C and total protein contents were significantly increased by foliar application of organic-chelate fertilizers. Soil applied NPK also improved green bean productivity compared to no fertilizer control. For most plant growth traits, there was no significant difference among the three organic-chelates. Foliar application of the macro- micro- nutrient mixture was not able to enhance the same growth, yield and pod quality traits like organic-chelates. Therefore, application of nutrient elements in form of organic-chelate and particularly by foliar application can guarantee better green bean plant performance.

RESPON PERTUMBUHAN DAN HASIL KACANG HIJAU (Vigna radiata L.) TERHADAP BERBAGAI DOSIS PUPUK NITROGEN DAN JARAK TANAM

This research intent 1) To know influence of type interaction manures nitrogen with distance plants out to growth and green bean plant result, 2 ) To know difference influence manure nitrogens to growth and green bean results, 3 ) To know distance purpose influences plant out to growth and green bean results. This research is done by use of agglomerate Random Design one was arranged by ala Factorial (RACK) with 2 factors, first factor which is nitrogenic manure dose urea (N ) one consist 3 levels which is N1 (N 100 kg / ha), N2 (N 150 kg / ha) and N3 (N 200 kg / ha). Second factor which is implant distance (J. ) one consists 2 levels which is J1 (30x20) and J2 (30x30). Observed parameter high cover plant, total productive branch, wight grades about plant upon harvests. dianalisis's data by use of analisis manner (Anova), if ascendant drawned out by DMRT'S quiz 5%. Result observationaling to point out that: 1 ). Dosed application manures urea's nitrogen 200 kg / ha give influence besting to growth and green bean plant results. 2 ). Distance plants out not give influence besting to growth and green bean plant result, but upon crop gives influence besting to growth and green bean plant result.

RESPON PERTUMBUHAN DAN HASIL KACANG HIJAU (Vigna radiata L.) TERHADAP BERBAGAI DOSIS PUPUK NITROGEN DAN JARAK TANAM

This research intent 1) To know influence of type interaction manures nitrogen with distance plants out to growth and green bean plant result, 2 ) To know difference influence manure nitrogens to growth and green bean results, 3 ) To know distance purpose influences plant out to growth and green bean results. This research is done by use of agglomerate Random Design one was arranged by ala Factorial (RACK) with 2 factors, first factor which is nitrogenic manure dose urea (N ) one consist 3 levels which is N1 (N 100 kg / ha), N2 (N 150 kg / ha) and N3 (N 200 kg / ha). Second factor which is implant distance (J. ) one consists 2 levels which is J1 (30x20) and J2 (30x30). Observed parameter high cover plant, total productive branch, wight grades about plant upon harvests. dianalisis's data by use of analisis manner (Anova), if ascendant drawned out by DMRT'S quiz 5%. Result observationaling to point out that: 1 ). Dosed application manures urea's nitrogen 200 kg / ha give influence besting to growth and green bean plant results. 2 ). Distance plants out not give influence besting to growth and green bean plant result, but upon crop gives influence besting to growth and green bean plant result.

Exposure to chlorpyrifos induces morphometric, biochemical and lipidomic alterations in green beans (Phaseolus vulgaris)

Chlorpyrifos (CPF) is a worldwide used pesticide that raises concerns from the environmental and human health perspectives. The presence of pesticides such as CPF in edible vegetables has been already reported, but little is known about the effects induced by this pesticide stress on the morphology, oxidative response and lipid composition of treated plants. In this work, green bean plants (Phaseolus vulgaris) were exposed to increasing concentrations of CPF and the different plant parts (roots, stem bases, stem, leaves, pods and beans) were subjected to different analyses. First, morphometric parameters and the oxidative response caused by CPF were explored. In a second phase of the study, an untargeted lipidomic analysis of the different tissue extracts was performed and MALDI-TOF mass spectrometry images of pods and beans were recorded and analysed to illustrate the spatial distribution of the changes observed. As a result of CPF treatment, plants showed a significant decrease in their height, leaf length, and pod number. The biochemical analysis showed lipid peroxidation and the activation of antioxidant mechanisms in roots, stem and leaves. Regarding the lipidomic results, changes in lipid levels were observed, mainly in leaves, pods and seeds. The main changes observed were a reduction of photosynthetic pigments and lipids in leaves and a decrease of triacylglycerols levels in pods and seeds. This last point was confirmed by the analysis of mass spectrometry images of the pods. These observations suggest that CPF would affect the yield of green bean crops as well as the nutritional value of pods and beans. This work represents a step forward in the knowledge of the effects of CPF, one of the most used pesticides worldwide, in plants.

Effect of Fe-Glycine Aminochelate on Pod Quality and Iron Concentrations of Bean (Phaseolus vulgaris L.) Under Lime Soil Conditions

ABSTRACTIron (Fe) has very low solubility and plant availability in calcareous soils, and this generally results in restricted plant production and low quality. During last decades, various commercial chelated fertilizers have been used in agricultural systems to meet iron requirements of crops. However, despite extensive application of these commercial chelate fertilizers, there is real doubt and high concerns regarding many aspects of their action, dynamics, efficiency, and safety in plant-soil–environment systems. In the present study, growth and quality of green bean plants (Phaseolus vulgaris L.) were evaluated under foliar and soil applications of Fe-glycine chelate (iron glycine aminochelate) and commercial Fe-EDDHA chelate in a lime soil. The results showed that morphophysiological parameters were improved by the application of Fe-glycine and Fe-EDDHA treatments. Foliar application of Fe-glycine has significantly improved leaf area and Soil-Plant Analyses Development (SPAD) values compared to control and Fe-EDDHA treatments. Pod yield, shoot (but not root) dry weight, and iron concentrations in leaves and pods (but not in root) were significantly higher when plants were treated by Fe-glycine rather than Fe-EDDHA in both soil and foliar applications. Vitamin C and protein contents were significantly improved and phenolic compounds were reduced by foliar application of Fe-glycine and soil application of Fe-EDDHA. The results indicate that foliar application of Fe-glycine can significantly increase Fe concentrations and quality of beans under lime soils with restricted iron availability.

Green Beans Cultivation Using Mice Pets Control to Improve the Quality of Bintaro Fruit Extract

Green beans cultivation technology using mice pets control has been implemented in the Gluranploso village, Benjeng Gresik. The implementation of the technology performed for 2.5 months from August to October 2017. The purpose of the implementation is aimed to reduce the dependence of farmers on the use of chemical pesticides so that the farmers are aware of the negative impact of chemical pesticides. Assessing the impact of the utilization of Bintaro fruit and fruit extracts to explore ways of making Bintaro as a natural biopesticide to overcome rat attack on green bean plants in the Gluranploso village. Pest control mice can reduce the rate of loss of the crops more effectively and efficiently. Finally, with the use of those natural resources as a biopesticide material can also maintain the environmental balance

Zn-localization and anatomical changes in leaf tissues of green beans ( Phaseolus vulgaris L.) following foliar application of Zn-lignosulfonate and ZnEDTA

Abstract Understanding the effective penetration of Zn fertilizers, following foliar application, requires powerful techniques to trace over a period of time the pathway of Zn within the leaf. In this paper, atomic absorption spectroscopy, Cryo-scanning electron microscopy (Cryo-SEM) and energy-dispersive X-ray microanalysis (CEDX) was used to study Zn uptake and localization at leaf cellular level, at different times after the foliar-application of a Zn-lignosulfonate (Zn-LS) complex in comparison with a ZnEDTA chelate. Green bean plants (Phaseolus vulgaris L., cv. Linera) were grown in pots and Zn-LS and ZnEDTA fertilizers were compared in foliar application on the oldest leaves. Zinc concentration in Treated Non-treated leaves and “washing away” water was determined by atomic absorption spectrophotometry at 6 h, 4 and 30 days. Significant differences in Zn penetration inside the leaves were observed, the most efficient being the Zn LS complex which showed fastest absorption after 6 h. At this time, also significant differences in Zn localization inside the leaf tissues were detected by CEDX, the mesophyll showing the highest absorption of Zn LS. Zn were detected in the mesophyll at the highest concentration in leaves of plants treated with Zn-LS also at the 4th and 30th days, whereas in those treated with ZnEDTA it was in the lower epidermis. The analyses of structural changes on frozen-hydrated leaf samples by Cryo-SEM showed that Zn-LS complex treatment causes an increase of the total thickness of the leaf and in particular of the spongy mesophyll, the innermost and physiologically active tissue layer.

Enzymatic Activity and Biochemical Composition in Leaves of Green Bean (Phaseolus vulgaris L. cv. Saxa) Grown in Almond Shell Substrates

The almond shell is the main by-product of almond production, and is currently a material with no important use. However, it is produced each year in considerable amounts, and finding an alternative and valuable use is of great interest. This work intends to elucidate the possibility of the addition of almond shell to growth substrates on green bean plant and its effect on leaf characteristics. Almond shell was used in a mixture of 20% shell and 80% peat (AS), and compared to the control (C) substrate, a mix of 33.3% of vermiculite and 66.6% of peat, using low and well watering conditions (50 or 100% of field capacity). The parameters that were evaluated include biochemical parameters of leaves, namely photosynthetic pigments, total phenolics and antioxidant activity, proteins, but also enzymatic activity and phytohormonal content. The addition of almond shell did not result in changes of the content of photosynthetic pigments, but led to negative changes on several of the remaining parameters, including yield, recorded enzymatic activity, ABA content and lipid peroxidation. These results indicate some deleterious effect of the addition of almond shell to growth substrates for cultivation of green bean.

First Report of Pythium myriotylum as a Causal Agent of Crown and Root Rot in Soilless Green Bean Cultivation in Italy

HomePlant DiseaseVol. 102, No. 3First Report of Pythium myriotylum as a Causal Agent of Crown and Root Rot in Soilless Green Bean Cultivation in Italy PreviousNext DISEASE NOTES OPENOpen Access licenseFirst Report of Pythium myriotylum as a Causal Agent of Crown and Root Rot in Soilless Green Bean Cultivation in ItalyS. Vitale, L. Luongo, E. Marinelli, and A. BelisarioS. VitaleSearch for more papers by this author, L. LuongoSearch for more papers by this author, E. MarinelliSearch for more papers by this author, and A. Belisario†Corresponding author: A. Belisario; E-mail: E-mail Address: [email protected]http://orcid.org/0000-0001-8912-7638Search for more papers by this authorAffiliationsAuthors and Affiliations S. Vitale L. Luongo E. Marinelli A. Belisario † , Consiglio per la Ricerca in Agricoltura e l’analisi dell’economia agraria, Centro di ricerca per la Difesa e la Certificazione (CREA-DC), 00156, Roma (Italy). Published Online:23 Jan 2018https://doi.org/10.1094/PDIS-07-17-0942-PDNAboutSectionsSupplemental ToolsAdd to favoritesDownload CitationsTrack Citations ShareShare onFacebookTwitterLinked InRedditEmailWechat Green beans are the unripe young fruit of common bean (Phaseolus vulgaris). Italy is one of the larger European producers, together with Spain, of green beans with 140,000 t of fresh vegetable (FAOSTAT 2014). To increase green bean production and quality, its cultivation includes soilless growing. In the summer 2016, during a survey in a commercial greenhouse farm in central Italy (Latium region), over 200 out of 1,000 green bean plants (P. vulgaris cv. Valdarno) showed symptoms of crown and root rot followed by wilting. Plants were cultivated in a pot with sterile perlite and coconut fiber with no recycled-water irrigation system. The infected crowns and roots appeared water soaked with a cinnamon brown color, and dead plants occurred in distinct and well-delimited areas. Microbial isolations were performed from 10 diseased plants previously abundantly washed under running tap water. Fragments cut from the margin of subepidermal stem lesions were plated on P5ARP (Jeffers and Martin 1986). A Pythium species was consistently isolated, and three single-hyphal cultures out of 25 colonies were transferred onto potato dextrose agar (PDA). Sporangia induced by soil filtrate were terminal or intercalary, filamentous, consisting of undifferentiated and inflated lobulate or digitate elements of variable length, mostly 7 to 17 µm in diameter. Oogonia mostly globose were terminal or intercalary from 20 to 35 µm in diameter (average 29 µm). Oospores were mostly aplerotic. On the basis of morphological features, the isolates were identified as Pythium myriotylum Drechsler (van der Plaats-Niterink 1981). The identity was confirmed by cytochrome oxidase subunit 1 (COI) and by internal transcribed spacer (ITS) sequence comparison with 100 and 99% homology with HQ708745 and HQ643701, respectively. Both sequences were from a P. myriotylum Israeli (CBS 25470) isolate obtained from peanuts. The sequences of the three isolates AB290, AB291, and AB292 were deposited in GenBank with numbers LT882483, LT882484, and LT882485 and numbers MF374745, MF374746, and MF374747 for ITS and COI, respectively. Pathogenicity tests were conducted in the greenhouse on P. vulgaris cv. Valdarno plants at the 4 to 5 leaf stage. Five plants for each isolate were inoculated with a 3-mm mycelial plug cut from the margins of actively growing 6-day-old PDA cultures. Plugs were inserted at the collar level and wrapped with Parafilm. Two plants for each isolate were used as controls and treated as described above except that sterile PDA plugs replaced the inoculum. Inoculated plants were kept for 2 weeks under controlled conditions in a greenhouse at 25 ± 2°C. After that period all inoculated plants showed stem necrotic streaks extended downward to the crown and roots. Most of the plants eventually died, developing symptoms similar to those observed on plants naturally infected, thus fulfilling Koch’s postulates. Control plants remained symptomless. Colonies isolated from the lesions morphologically resembled the inoculated isolates. Pythium myriotylum is the causal agent of root rot in numerous economically important crops including peanuts, tomato, wheat, oats, cucumber, soya bean, tobacco, and maize (Wang et al. 2003). However, only one report described this pathogen on green bean in Europe, namely, in Spain (Serrano et al. 2007). To our knowledge, this is the first report of P. myriotylum on green bean plants in Italy. A more careful water management in soilless potting mix would avoid the emergence of Pythium root rot in this crop’s production system.

Crop recognition under weedy conditions based on 3D imaging for robotic weed control

AbstractA 3D time‐of‐flight camera was applied to develop a crop plant recognition system for broccoli and green bean plants under weedy conditions. The developed system overcame the previously unsolved problems caused by occluded canopy and illumination variation. An efficient noise filter was developed to remove the sparse noise points in 3D point cloud space. Both 2D and 3D features including the gradient of amplitude and depth image, surface curvature, amplitude percentile index, normal direction, and neighbor point count in 3D space were extracted and found effective for recognizing these two types of plants. Separate segmentation algorithms were developed for each of the broccoli and green bean plant in accordance with their 3D geometry and 2D amplitude characteristics. Under the experimental condition where the crops were heavily infested by various types of weed plants, detection rates over 88.3% and 91.2% were achieved for broccoli and green bean plant leaves, respectively. Additionally, the crop plants were segmented out with nearly complete shape. Moreover, the algorithms were computationally optimized, resulting in an image processing speed of over 30 frames per second.

Analysis of multiple mass spectrometry images from different Phaseolus vulgaris samples by multivariate curve resolution

A new procedure based on the simultaneous analysis of multiple mass spectrometry images using multivariate curve resolution is presented in this work. Advantages of the application of the proposed approach are shown for three cases of plant studies demonstrating its potential usefulness in metabolomics studies, particularly in lipidomics. In the first dataset, a three stage germination time course process of green bean seeds is presented. The second example is a dose-response study where the stem bases of a non-exposed plant are compared to those of plants exposed to increasing concentrations of the pesticide chlorpyrifos. Finally, the third study is the simultaneous analysis of several sequential transversal and longitudinal cuts of the same green bean plant stem segment.The analysis of these three examples required the comprehensive adaptation of different chemometric methodologies including data compression by selection of the regions of interest (ROI strategy), appropriate data normalization and baseline correction, all of them before MCR-ALS simultaneous image analysis of multiple samples and post processing of the achieved results. MCR-ALS resolved components provided spatial information about the changes in the spatial composition and distribution of the different lipids on the surface of the investigated samples. These results enabled the identification of single lipids and the clustering of those lipids that behaved similarly in the different images simultaneously analyzed. The proposed strategy for MSI analysis represents a step forward in the simultaneous analysis of multiple sets of images providing an improved recovery of both spatial and structural information in environmental and biomedical studies.

Isolation of Indigenous Bacteria of Phosphate Solubilizing from Green Bean Rhizospheres

The use of phosphate - solubilizing bacteria (PSB) as a bio logical fertilizer of Agricultural land is one solution to overcome problem of phosphate availability for plants. However, often application of a biological fertilizer is ineffective for certain place s . The purpose of this study was to obtain indigen o u s phosphate solubilizing bacterial isolates that can be effective in the area of Malang. Samples were collected from rhizosphere of green bean plants at three locations in Malang, East Java. The study was conducted to determine the total bacterial population of soil samples, to select the best three bacterial isolates in phosphate solubilizing ability, which is not antagonistic and nonpathogenic for plants , along with observing its potential as a bacterial consortium. The highest total population was found in FHR samples of 1.5x10 11 CFU / mL. We have selected three bacterial isolates namely SPP1, SPP2 and SPP3. They were not antagonistic to each other and non pathogenic on mungbean sprouts. The y had possibility of producing growth hormone which characterized by an increasin g in length of plant and total root length, be compared to controls. Strain SPP2 has shown the highest activity of phosphate solubilization then was selected for 16S rRNA identification . Similarity test of genome sequence of strain SPP2 had 99% similarity with Pseudomonas plecoglossicida strain PR19

Interaction Between Intercropping System and Agricultural Ecosystems on The Level Infestation of Some Pests Associated With Bean Plants

Effect of different intercropping systems of sweet basil (Ocimum basilicum) plants and spraying with sweet basil oils on population of Green bean (Phaseolus vulgaris) L. pests (Bemisia tabaci (Genn.), Liriomyza trifolii (Burg.) and Tetrenchys urticae (Koch)) under three agricultural ecosystems namely; plastic greenhouse, scaffold net greenhouse and open field, an experimentwas carried out inside greenhouse experimental area at Dokki, Giza Governorate during 2012. According to interaction between of intercropping system and agricultural ecosystems on the level infestation with certain green bean pests, it is clear that, plastic greenhouse harboured the highest number of pests infesting green bean plants while the open field had the lowest number of pests whereas, the scaffold net greenhouse was intermediate as a result to spraying with basil oil is the best method to reduction the number of pests attacking green bean irrespective of intercropping with basil plants or cultivating under plastic or scaffold net greenhouse.

Effect of zinc oxide (nano and ordinary) and Glomus intraradices fungi on yield components and concentration of micronutrients in green bean plant

Effect of zinc oxide (nano and ordinary) and Glomus intraradices fungi on yield components and concentration of micronutrients in green bean plant