Your search keyword '"Potato"' showing total 4,427 results

1. New genomic techniques can contribute to reduced pesticide usage in Europe.

Author

Sundström, Jens F., Berlin, Anna, Phuong, Nam Kieu, Karlsson, Milla, and Andreasson, Erik

Subjects

*PESTICIDE resistance, *WHEAT breeding, *PLANT breeding, *GENOME editing, *AGRICULTURAL industries, *POTATOES

Abstract

Societal Impact Statement: Can modern breeding technologies, such as genome editing, contribute to reduced pesticide usage? This question has been accentuated by a recent legal proposal to exempt genome‐edited plants from the strict regulations applied to classical genetically modified (GM) crops within the European Union (EU). Using official statistics on crop cultivation and pesticide usage for two example crops commonly grown in Sweden, we calculate that cereal farmers collectively could save up to 70 million € in pesticide usage for wheat alone and that a late blight‐resistant potato could reduce pesticide usage by over 80% provided that the EU legislation is amended. Summary: The European Commission has set goals to reduce the use of chemical pesticides, and one way to meet these goals in the agricultural sector is to breed disease‐resistant crops. Here, we ask whether modern breeding technologies, for example, genome editing using site‐directed nucleases, can contribute to these goals. This question has been accentuated by recent legal proposals in the European Union (EU) and several other jurisdictions worldwide to exempt genome‐edited plants from the strict regulations often applied to classical genetically modified (GM) crops. Using official statistics on crop cultivation and pesticide usage for two example crops commonly grown in Sweden (wheat and potato), we show that cereal farmers collectively could potentially save up to 70 million € in pesticide usage for wheat alone and that a late blight‐resistant potato could reduce pesticide usage by over 80% provided that the EU legislation is amended. Given the immense potential of genome‐edited crops, we further discuss details in the legal proposal currently being negotiated in the EU on the so‐called new genomic techniques that includes both genome editing and targeted insertions of cisgenes. Although promising, we argue that several technical limitations in the legal proposal will, if implemented, hamper the development of disease‐resistant crops and make the suggested legislation less future‐proof. [ABSTRACT FROM AUTHOR]

Published

2024

2. Analysis of Stress Response Genes in Microtuberization of Potato Solanum tuberosum L.: Contributions to Osmotic and Combined Abiotic Stress Tolerance.

Author

Herrera-Isidron, Lisset, Uribe-Lopez, Braulio, Barraza, Aaron, Cabrera-Ponce, José Luis, and Valencia-Lozano, Eliana

Subjects

STARCH metabolism, PRINCIPAL components analysis, CARBON metabolism, GENE expression, ABIOTIC stress, POTATOES, PHYSIOLOGICAL effects of cold temperatures

Abstract

Wild Solanum species have contributed many introgressed genes during domestication into current cultivated potatoes, enhancing their biotic and abiotic stress resistance and facilitating global expansion. Abiotic stress negatively impacts potato physiology and productivity. Understanding the molecular mechanisms regulating tuber development may help solve this global problem. We made a transcriptomic analysis of potato microtuberization under darkness, cytokinins, and osmotic stress conditions. A protein–protein interaction (PPI) network analysis identified 404 genes with high confidence. These genes were involved in important processes like oxidative stress, carbon metabolism, sterol biosynthesis, starch and sucrose metabolism, fatty acid biosynthesis, and nucleosome assembly. From this network, we selected nine ancestral genes along with eight additional stress-related genes. We used qPCR to analyze the expression of the selected genes under osmotic, heat–osmotic, cold–osmotic, salt–osmotic, and combined-stress conditions. The principal component analysis (PCA) revealed that 60.61% of the genes analyzed were associated with osmotic, cold–osmotic, and heat–osmotic stress. Seven out of ten introgression/domestication genes showed the highest variance in the analysis. The genes H3.2 and GAPCP1 were involved in osmotic, cold–osmotic, and heat–osmotic stress. Under combined-all stress, TPI and RPL4 were significant, while in salt–osmotic stress conditions, ENO1, HSP70-8, and PER were significant. This indicates the importance of ancestral genes for potato survival during evolution. The targeted manipulation of these genes could improve combined-stress tolerance in potatoes, providing a genetic basis for enhancing crop resilience. [ABSTRACT FROM AUTHOR]

Published

2024

3. Altered Metabolism in Knockdown Lines of Two HXXXD/BAHD Acyltransferases During Wound Healing in Potato Tubers.

Author

Sinka, Jessica L., Queralta-Castillo, Indira, Yeung, Lorena S., Molina, Isabel, Dhaubhadel, Sangeeta, and Bernards, Mark A.

Subjects

FERULIC acid, ACYLTRANSFERASES, TUBERS, BIOSYNTHESIS, VECTOR control, POTATOES

Abstract

Suberin biosynthesis involves the coordinated regulation of both phenolic and aliphatic metabolisms. HXXXD/BAHD acyltransferases occupy a unique place in suberization, as they function to crosslink phenolic and aliphatic monomers during suberin assembly. To date, only one suberin-associated HXXXD/BAHD acyltransferase, StFHT, has been described in potatoes, whereas, in Arabidopsis, at least two are implicated in suberin biosynthesis. RNAseq data from wound-induced potato tubers undergoing suberization indicate that transcripts for 28 HXXXD/BAHD acyltransferase genes accumulate in response to wounding. In the present study, we generated RNAi knockdown lines for StFHT and another highly wound-induced HXXXD/BAHD acyltransferase, designated StHCT, and characterized their wound-induced suberin phenotype. StFHT-RNAi and StHCT-RNAi knockdown lines share the same aliphatic suberin phenotype of reduced esterified ferulic acid and ferulates, which is similar to the previously described StFHT-RNAi knockdown suberin phenotype. However, the phenolic suberin phenotype differed between the two knockdown genotypes, with StHCT-RNAi knockdown lines having proportionately more p-hydroxyphenyl-derived moieties than either StFHT-RNAi knockdown or empty vector control lines. Analysis of soluble polar metabolites revealed that StHCT catalyzes a step upstream from StFHT. Overall, our data support the involvement of more than one HXXXD/BAHD acyltransferase in potato suberin biosynthesis. [ABSTRACT FROM AUTHOR]

Published

2024

4. Proteomics fingerprinting reveals importance of iron and oxidative stress in Streptomyces scabies– Solanum tuberosum interactions L.

Author

Giroux, Lauriane, Isayenka, Iauhenia, Lerat, Sylvain, Beaudoin, Nathalie, and Beaulieu, Carole

Subjects

BACTERIAL proteins, METABOLITES, HEAT shock proteins, OXIDATIVE stress, GENE expression, SCABIES, POTATOES, SECONDARY metabolism

Abstract

Introduction: The Gram-positive actinobacterium Streptomyces scabies is the major causal agent of potato common scab. The main pathogenicity factor is thaxtomin A, a phytotoxin that causes atypical cell death, although other secondary metabolites have been described to play a role in S. scabies virulence. Despite this, many aspects of the interaction between S. scabies and its primary host Solanum tuberosum L. remain to be elucidated. Methods: Intracellular proteins of S. scabies EF-35 grown in the presence of in vitro produced tubers (microtubers) of the Russet Burbank and Yukon Gold potato cultivars were extracted and analysed by electrospray mass spectrometry (ES MS/MS). Based on the results of proteomic analysis, iron quantification by ICP-MS and nitrite quantification using Griess reagent in growth media as well as RT-qPCR analysis of the siderophore pyochelin gene expression were performed in the presence and absence of microtubers. Hydrogen peroxide accumulation was also determined in the nutrient medium used for co-cultivation of bacteria and potato microtubers. Results: Potato microtubers caused an increase in the content of bacterial proteins involved in stress and defense, secondary metabolism, and cell differentiation, as well as secreted proteins. Co-cultivation with potato microtubers induced the accumulation of S. scabies proteins implicated in siderophore pyochelin biosynthesis, nitrite production and oxidative stress perception and response. The increase in the abundance of proteins related to pyochelin biosynthesis was consistent with a significant decrease in the iron content in the culture medium, as well as with induction of expression of pyochelin biosynthesis genes. Elevated nitrite/sulfite reductase protein levels were associated with increased nitrite excretion by S. scabies cells in the presence of host microtubers. The increase in the levels of proteins associated with signaling and oxidative stress response could have been caused by the accumulation of ROS, in particular hydrogen peroxide, detected in the studied system. Discussion: These findings show that interactions of S. scabies with living potato microtubers induce the production of secondary metabolites, defense responses, and protection from oxidative stress. This study suggests the importance of iron during host - S. scabies interactions, resulting in competition between pathogen and its host. [ABSTRACT FROM AUTHOR]

Published

2024

5. Similar chilling response of dormant buds in potato tuber and woody perennials.

Author

Roitman, Marina and Eshel, Dani

Subjects

*WOODY plants, *DECIDUOUS plants, *PLANT hormones, *ABSCISIC acid, *SUGAR crops, *DORMANCY in plants, *POTATOES

Abstract

Bud dormancy is a survival strategy that plants have developed in their native habitats. It helps them endure harsh seasonal changes by temporarily halting growth and activity until conditions become more favorable. Research has primarily focused on bud dormancy in tree species and the ability to halt growth in vegetative tissues, particularly in meristems. Various plant species, such as potato, have developed specialized storage organs, enabling them to become dormant during their yearly growth cycle. Deciduous trees and potato tubers exhibit a similar type of bud endodormancy, where the bud meristem will not initiate growth, even under favorable environmental conditions. Chilling accumulation activates C-repeat/dehydration responsive element binding (DREB) factors (CBFs) transcription factors that modify the expression of dormancy-associated genes. Chilling conditions shorten the duration of endodormancy by influencing plant hormones and sugar metabolism, which affect the timing and rate of bud growth. Sugar metabolism and signaling pathways can interact with abscisic acid, affecting the symplastic connection of dormant buds. This review explores how chilling affects endodormancy duration and explores the similarity of the chilling response of dormant buds in potato tubers and woody perennials. [ABSTRACT FROM AUTHOR]

Published

2024

6. Effect of Integrated Nutrient Management Levels on Soybean and its Residual Effect on Production Efficiency and Economic Efficiency under Soybean-Onion and Soybean-Potato Cropping System.

Author

Patil, S. S., Hiwale, S. D., Shinde, R. S., Yadav, K. R., and Patil, S. R.

Subjects

*SUSTAINABLE agriculture, *AGRICULTURAL productivity, *CROPPING systems, *CROP rotation, *CROP management, *POTATOES

Abstract

Background: Inclusion of high value vegetable crops like onion and potato in soybean based crop sequence may help to improve the productivity and profitability on sustainable basis. Nutrient management and cropping sequence are two important factors which affect productivity and profitability of crop. As such, information on soybean followed by onion and potato is lacking and it will be very useful for exploring the productivity and profitability of soybean followed by high value vegetable crop sequence. Methods: The data pertaining to growth characteristics, yield characteristics, gross monetary returns and net monetary returns of Soybean (kharif) and Onion or Potato (rabi) was collected at regular interval in 2017-18, 2018-19 at Agronomy Farm, Dr. PDKV, Akola which was analyzed statistically in RBD (Randomized Block Design) and SPD (Split Plot Design). Result: S1- soybean-onion recorded more production efficiency than S2- soybean-potato. S1- soybean-onion reported greater economic efficiency than S2- soybean-potato. Soybean crop supplied with IN3 (100% RDN applied with FYM@ 5 t per ha and biofertilizer) registered highest production efficiency and economic efficiency than IN1 (50% RDN applied with FYM 5 t per ha and biofertilizer) to soybean and found at par with IN2 (75% RDN applied with FYM 5 t per ha and biofertilizer) to soybean. Rabi crop (onion/potato) supplied with F3 (125% RDF) level registered significantly greater production and economic efficiency than lower levels of recommended dose nutrient. [ABSTRACT FROM AUTHOR]

Published

2024

7. Monitoring and Optimization of Potato Growth Dynamics under Different Nitrogen Forms and Rates Using UAV RGB Imagery.

Author

Ye, Yanran, Jin, Liping, Bian, Chunsong, Liu, Jiangang, and Guo, Huachun

Subjects

*PEARSON correlation (Statistics), *PLANT drying, *CROP growth, *AMMONIUM nitrate, *PHYTOGEOGRAPHY, *POTATOES

Abstract

The temporal dynamics of canopy growth are closely related to the accumulation and distribution of plant dry matter. Recently, unmanned aerial vehicles (UAVs) equipped with various sensors have been increasingly adopted in crop growth monitoring. In this study, two potato varieties were used as materials, and treated with different combinations of nitrogen forms (nitrate and ammonium) and application rates (0, 150, and 300 kg ha−1). A canopy development model was then constructed using low-cost time-series RGB imagery acquired by UAV. The objectives of this study were to quantify the variation in canopy development parameters under different nitrogen treatments and to explore the model parameters that represent the dynamics of plant dry matter accumulation, as well as those that contribute significantly to yield. The results showed that, except for the thermal time to canopy senescence (t2), other parameters of the potato canopy development model exhibited varying degrees of variation under different nitrogen treatments. The model parameters were more sensitive to nitrogen forms, such as ammonium and nitrate, than to application rates. The integral area (At) under the canopy development curve had a direct effect on plant dry matter accumulation (path coefficient of 0.78), and the two were significantly positively correlated (Pearson correlation coefficient of 0.93). Integral area at peak flowering (AtII) was significantly correlated with yield for both single and mixed potato varieties, having the greatest effect on yield (total effect of 1.717). In conclusion, UAV-acquired time-series RGB imagery could effectively quantify the variation of potato canopy development parameters under different nitrogen treatments and monitor the dynamic changes in plant dry matter accumulation. The regulation of canopy development parameters is of great importance and practical value for optimizing nitrogen management strategies and improving yield. [ABSTRACT FROM AUTHOR]

Published

2024

8. StEPF2 and StEPFL9 Play Opposing Roles in Regulating Stomatal Development and Drought Tolerance in Potato (Solanum tuberosum L.).

Author

Kang, Le, Liu, Junke, Zhu, Hongqing, Liao, Leqin, Ye, Muying, Wei, Yun, Liu, Nairong, Ke, Qingbo, Kim, Ho Soo, Kwak, Sang-Soo, and Zhou, Quanlu

Subjects

*WATER efficiency, *DROUGHT tolerance, *WESTERN immunoblotting, *WATER restrictions, *TRANSGENIC plants, *POTATOES, *STOMATA

Abstract

Stomata are essential for photosynthesis and water-use efficiency in plants. When expressed in transgenic Arabidopsis thaliana plants, the potato (Solanum tuberosum) proteins EPIDERMAL PATTERNING FACTOR 2 (StEPF2) and StEPF-LIKE9 (StEPFL9) play antagonistic roles in regulating stomatal density. Little is known, however, about how these proteins regulate stomatal development, growth, and response to water deficit in potato. Transgenic potato plants overexpressing StEPF2 (E2 plants) or StEPFL9 (ST plants) were generated, and RT-PCR and Western blot analyses were used to select two lines overexpressing each gene. E2 plants showed reduced stomatal density, whereas ST plants produced excessive stomata. Under well-watered conditions, ST plants displayed vigorous growth with improved leaf gas exchange and also showed increased biomass/yields compared with non-transgenic and E2 plants. E2 plants maintained lower H2O2 content and higher levels of stomatal conductance and photosynthetic capacity than non-transgenic and ST plants, which resulted in higher water-use efficiency and biomass/yields during water restriction. These results suggest that StEPF2 and StEPFL9 functioned in pathways regulating stomatal development. These genes are thus promising candidates for use in future breeding programs aimed at increasing potato water-use efficiency and yield under climate change scenarios. [ABSTRACT FROM AUTHOR]

Published

2024

9. Screening and Identification of Target Gene of StTCP7 Transcription Factor in Potato.

Author

Si, Xingru, Xu, Wenjin, Fan, Junliang, Wang, Kaitong, Zhang, Ning, and Si, Huaijun

Subjects

*TRANSCRIPTION factors, *GENE expression, *PROMOTERS (Genetics), *PETIOLES, *ABSCISIC acid, *POTATOES

Abstract

TCP transcription factors are involved in the regulation of plant growth and development and response to stress. Previous studies showed that StTCP7 was involved in the abiotic stress response of potato and positively regulated plant tolerance to drought stress. On the basis of previous studies, this study verified the downstream target genes of StTCP7 transcription factor binding through yeast one hybridization, double luciferase and other technologies, and conducted a preliminary analysis of the downstream target genes. The results showed that the StTCP7 transcription factor could bind the promoter region of StDAM5 and StGOLS2 and regulate the expression of their genes. qRT-PCR analysis showed that the expression level of StDAM5 gene was the highest in flower stalk tissue and the lowest in leaf stalk. The expression of StGOLS2 gene was the highest in stem, the second in stalk, and the lower in root. Both StDAM5 and StGOLS2 genes responded to abiotic stress treated with 200 mM NaCl, 20% PEG-6000 and 100 µM ABA. The expression levels of target genes StDAM5 and StGOLS2 were up-regulated in StTCP7 interfered plants. The protein encoded by the target gene StDAM5 belongs to the Type II MADS-box protein, which contains 238 amino acids and is an acidic hydrophilic protein. The analysis of StDAM5 promoter region showed that the promoter region of StDAM5 gene contained cis-acting elements such as light response and abscisic acid. Subcellular localization showed that StDAM5 protein was expressed in both nucleus and cytoplasm. [ABSTRACT FROM AUTHOR]

Published

2024

10. Resistance to Candidatus Liberibacter Solanacearum (Lso) in the Wild Potato Solanum microdontum.

Author

Bamberg, John, Cooper, W. Rodney, and Fenstemaker, Sean

Subjects

*WILD plants, *INSECT pest control, *SOLANUM, *ZEBRAS, *CANDIDATUS, *POTATOES

Abstract

Zebra chip is an increasingly serious disease in commercial potato production globally. Resistance can be pursued by control of the insect vector, the tomato-potato psyllid, Bactericera cockerelli or the bacterial causal agent, Candidatus Liberibacter solanacearum (Lso). Some Lso-infected plants of the wild potato species S. microdontum (mcd) had been observed to have low symptom expression. Thus, we evaluated a representative core collection of 86 individuals from 50 mcd populations in the US Potato Genebank (USPG). Real-time quantitative PCR on tissue from infected leaves was used as a proxy for bacterial titer of Lso. Russet Burbank control had 56% of the MLT of the most susceptible mcd individual. The average for all mcd was 67%, and the lowest, most resistant six mcd individuals were 0%. Repeated testing of those six individuals identified two as most reliably resistant: mcd15B2 from PI 265575 and mcd62B1 from PI 498126. All of these mcd individuals are available from USPG. They should be useful for research and breeding aimed at better understanding and controlling Zebra chip disease. [ABSTRACT FROM AUTHOR]

Published

2024

11. Polyacrylamide Regulated Phytohormone Balance and Starch Degradation to Promote Seed-Potato Sprouting and Emergence.

Author

Yin, Meiqiang, Hu, Dongmei, Yu, Xiaohang, Wang, Yijie, Song, Sa, Wang, Chongyue, Hu, Qilin, and Wen, Yinyuan

Subjects

PHYSIOLOGY, SEED potatoes, STARCH metabolism, STARCH, POTATO seeds, POTATOES

Abstract

Potatoes are typically seeded as tubers, and their slow sprouting significantly impacts production. Therefore, the effects of polyacrylamide (20 g·L−1, 30 g·L−1, and 40 g·L−1) as a seed potato dressing on sprouting, seedling growth, and biomass were investigated. The phytohormone content, respiratory intensity, and starch metabolism enzyme activity were analyzed to elucidate the physiological mechanisms involved. The sprouting rate significantly increased after 20 g·L−1 and 30 g·L−1 treatments by 40.63% and 15.63%, respectively. The sprouting energy was the highest (52.0%) at 20 g·L−1, 7.67 times higher than the control. The 20 g·L−1 and 30 g·L−1 treatments also promoted emergence and growth, with the emergence rate increasing by 18.18% and 27.27% and growth increasing by over 8.1% and 11.9%, respectively. These effects were related to changes in phytohormone content and accelerated starch conversion. After treatment, the auxin and cytokinin contents in the apical buds increased significantly at the germination initiation stage, and during the germination and vigorous growth phases, the auxin, cytokinin, and gibberellin contents increased. Polyacrylamide treatment activated α-amylase and promoted starch degradation, increasing soluble sugar content to provide nutrients and energy for sprouting. This study provides a promising approach for promoting potato tuber sprouting and seedling growth. [ABSTRACT FROM AUTHOR]

Published

2024

12. Efficacy of potassium schoenite as indigenous source of potassic fertilizer for potato crop grown in Western India.

Author

Rathod, S. V., Patel, K. C., Parmar, J. K., and Bhanvadia, A. S.

Subjects

*POTASSIUM chloride, *POTASSIUM sulfate, *AGRICULTURAL productivity, *POTATO growing, *AGRICULTURE, *POTATOES

Abstract

AbstractTo attain the optimal production and quality, potato (Solanum tuberosum L.) farming requires a large amount of potassium fertilizers. Due to a lack of K mineral reserves, several nations, including India, import potassic fertilizers, which place additional financial strain on the country’s economy. Thus, potassium schoenite produced from sea bittern may present an attractive substitute for potassium nutrition in crop production. The current study examined the relative effect of indigenously produced potassium schoenite (PS) on potato crop. The findings demonstrated that potassium schoenite considerably increased potato growth, yield characteristics, yield, and quality of tuber. With 100% RDK (220 kg/ha K2O) through potassium schoenite + 1% foliar spray of potassium schoenite @ 30 and 45 DAP, the greatest yield attributes, total tuber yield and starch output were achieved which remained at par with 75% RDK (165 kg/ha K2O) through potassium schoenite + 1% foliar spray of potassium schoenite @ 30 and 45 DAP. Furthermore, potassium schoenite saves 25% K2O in potato production as compared to potassium sulfate and muriate of potash. Thus, indigenous potassium sources have been found to be far more effective than imported potassium sulfate and muriate of potash in enhancing potato productivity. [ABSTRACT FROM AUTHOR]

Published

2024

13. Identification of autophagy-related genes ATG18 subfamily genes in potato (Solanum tuberosum L.) and the role of StATG18a gene in heat stress.

Author

Xi Zhu, Wei Li, Ning Zhang, Huimin Duan, Hui Jin, Zhuo Chen, Shu Chen, Jiannan Zhou, Qihua Wang, Jinghua Tang, Yasir Majeed, Yu Zhang, and Huaijun Si

Subjects

GENE expression, PLANT genes, PLANT growth, POLYMERASE chain reaction, CELL anatomy, POTATOES

Abstract

Autophagy is a highly conserved process in eukaryotes that is used to recycle the cellular components from the cytoplasm. It plays a crucial function in responding to both biotic and abiotic stress, as well as in the growth and development of plants. Autophagy-related genes (ATG) and their functions have been identified in numerous crop species. However, their specific tasks in potatoes (Solanum tuberosum L.), are still not well understood. This work is the first to identify and characterize the potato StATG18 subfamily gene at the whole-genome level, resulting in a total of 6 potential StATG18 subfamily genes. We analyzed the phylogenetic relationships, chromosome distribution and gene replication, conserved motifs and gene structure, interspecific collinearity relationship, and cis-regulatory elements of the ATG18 subfamily members using bioinformatics approaches. Furthermore, the quantitative real-time polymerase chain reaction (qRT-PCR) analysis suggested that StATG18 subfamily genes exhibit differential expression in various tissues and organs of potato plants. When exposed to heat stress, their expression pattern was observed in the root, stem, and leaf. Based on a higher expression profile, the StATG18a gene was further analyzed under heat stress in potatoes. The subcellular localization analysis of StATG18a revealed its presence in both the cytoplasm and nucleus. In addition, StATG18a altered the growth indicators, physiological characteristics, and photosynthesis of potato plants under heat stresses. In conclusion, this work offers a thorough assessment of StATG18 subfamily genes and provides essential recommendations for additional functional investigation of autophagy-associated genes in potato plants. Moreover, these results also contribute to our understanding of the potential mechanism and functional validation of the StATG18a gene's persistent tolerance to heat stress in potato plants. [ABSTRACT FROM AUTHOR]

Published

2024

14. The Effect of Heavy Metals in Potato (Solanum tuberosum L.) Genotypes for Some Physiological Parameters.

Author

RUSINOVCI, Imer, ALIU, Sali, DEMIRBAS, Sefer, ZEKA, Dukagjin, and JAKUPI, Mimoza

Subjects

*PHYSIOLOGY, *PLANT pigments, *PHOTOSYNTHETIC pigments, *STRESS concentration, *LEAD, *POTATOES, *CAROTENOIDS

Abstract

The main aim of this study is to identify physiological characteristics, including Chl a, b, total Chl "a+b" and carotenoids, in potato genotypes under the influence of lead (Pb+2) and cadmium (Cd+2) heavy metals. Two potato genotypes from the Netherlands, Riviera and Agria, were used in the study. Potato tubers were transferred to 2 kg compost pots and placed in a controlled environment with a 12 photoperiod, a day/night temperature of 25/19°C and a relative humidity of 75%. Since Pb+2 and Cd+2 poisoning was greater than in the control and different fractions of heavy metal residues in the substrate were transferred to plant organs, the amounts of these two metals in each treatment (outside the control) were measured. Plant pigments were extracted from fresh leaves in amounts ranging from 60 to 100 mg and these were then extracted into samples containing 80/20% (v/v) acetone/water with 0.5% w/v MgCO3 at room temperature for a full day. Photosynthetic pigments of each sample were extracted three times. The absorbances obtained at 663 nm, 644 nm and 452.5 nm for the maximum absorption of Chl a, Chl b and carotenoids, respectively, were used to measure the amount of chlorophyll and carotenoids. Differences between Pb+2 and Cd+2 and physiological markers were examined with the Duncan Multiple Range test. Information on Pb+2 and Cd+2 content in applications revealed wide variability. When potato genotype seedlings were exposed to varying levels of Pb+2 and Cd+2, the amount of chlorophyll and carotenoids in their leaves was lower than the control group. The results showed that there were significant and statistically significant changes in carotenoid and chlorophyll concentration at the LSD p = 0.01 level. Similar to Pb+2 and Cd+2 inhibiting plant growth, it had a negative effect on photosynthesis as well as chlorophyll and carotenoid contents. Moreover, these effects became more pronounced when the concentrations of two stress factors (Pb+2 and Cd+2) increased. [ABSTRACT FROM AUTHOR]

Published

2024

15. Application of root zone cooling in various hydroponic methods for potato seed production in lowland wet tropics of Indonesia.

Author

Sumarni, Eni and Farid, Noor

Subjects

*POTATO seeds, *SEED potatoes, *TUBERS, *SEED industry, *STATISTICAL hypothesis testing, *POTATOES

Abstract

The application of root zone cooling in aeroponic systems is an alternative method to enhance potato seed production in lowland tropical areas. This method requires further investigation of various hydroponic systems in lowland areas to improve seed production. Therefore, this research aimed to obtain growth and yield for potato seed using root zone cooling in aeroponic and Nutrient Film Technique (NFT) in lowland areas of Indonesia. The factors tested included hydroponic type (H): H1 (Aeroponics) and H2 (NFT), as well as origin of tubers: U1 (shoot cuttings), U2 (root cuttings), and U3 (tubers). A factorial randomized block design was used with four replicates and the data obtained were analyzed using ANOVA. In cases of treatment effects, further comparisons were made using the DMRT test at a 5% significance level. The results showed that aeroponic with root zone cooling application yielded higher average plant height, leaf count, tuber count, and weight compared to NFT system. The average number of seed produced in aeroponic ranged from 9.6 to 12.2 tubers plant-1, while 1.0 to 1.2 tubers plant-1 was obtained in NFT system. Furthermore, the highest average seed weight was obtained from aeroponic, ranging from 3.3 to 3.5 g, and 0.8 to 1 g in NFT. [ABSTRACT FROM AUTHOR]

Published

2024

16. 马铃薯装卸袋过程的碰撞冲击损伤分析与试验.

Author

魏忠彩, 韩　梦, 苏国粱, 胡良龙, 王法明, 王宪良, 程修沛, 金诚谦, and 张祥彩

Subjects

*LOADING & unloading, *POTATO waste, *ANALYSIS of variance, *FIELD research, *POTATOES

Abstract

High potato damage and peeling rates have been caused by the potato loading and unloading bag device. It is also unclear on the impact damage. In this study, a potato loading and unloading bag device test bench was constructed to reduce and prevent losses. Two aspects were mainly taken to optimize the structure: the potato collection device and the unloading device. A mechanical structure was adopted with the dual buffering of buffer rollers and limiting rollers, in order to reduce the impact damage of potatoes during bagging; Furthermore, two limiting rollers of "gather caching and separate bagging" mode were used to achieve uninterrupted harvesting for the high bagging efficiency; The lifting slide of the bag unloading device adopted the technology of "gradually decreasing with weight" to control the drop height of potatoes during bagging within a specific range, thus avoiding damage that caused by excessive drop height of potatoes. The position of the buffer roller was adjusted to determine the optimal movement trajectory of the potato, and then minimize the damage during potato bagging. The severity of the impact between potatoes and buffer rollers was evaluated to calculate the maximum contact stress. The main parameters of key components were then determined, according to the main structure and working principle of the device. The impact theory was analyzed during potato bagging. The key influencing factors were clarified on the potato skin damage. RecurDyn and EDEM were coupled to simulate the stress situation of potatoes under roller buffering and non-roller buffering states. The maximum collision contact force of potato blocks with roller buffering was reduced to 263.566 N, compared to those without roller buffering. Taking the conveying speed, buffer roller diameter, and feeding amount as the experimental factors, while the potato damage rate and skin breakage rate as evaluation indicators, a three-factor three-level orthogonal experiment was conducted using Box-Behnken neutral combination design function in Design-Expert. Variance analysis was also performed to analyze the impact of the interaction of various experimental factors on the evaluation indicators using the response surface method (RSM). The working parameters were optimized to determine the optimal values of each parameter, according to actual working conditions. A series of experiments were conducted to verify using an electronic potato impact detector. The results showed that the potato damage rate and skin breaking rate were 0.82% and 1.14%, respectively, when the conveying speed was 0.96 m/s, the diameter of the buffer roller was 83mm, and the feeding amount was 26 t/h. The peak impact acceleration was smaller than the critical damage threshold of potato impact acceleration. At the same time, the impact acceleration at the last point was much smaller than the initial one. The relative errors between the measured and the theoretical values after parameter optimization were 4.06% and 0.4%, respectively. The intensity of the potato impact decreased in a manner like wave, where the impact weakened gradually. Therefore, the potato bagging and unloading device achieved the expected goal of potato collecting and reducing loss. Field experiments showed that the potato damage rates were 0.97%, 1.32%, and 1.58%, respectively, and the skin breaking rates were 1.34%, 1.53%, and 1.87%, respectively, when the harvesting speeds were 0.6, 0.8, and 1.0 m/s, respectively. The high performance was all met the national standards. [ABSTRACT FROM AUTHOR]

Published

2024

17. Effects of Different Irrigation Levels and Nitrogen Fertilization on Some Physiological Indicators of Potato.

Author

Akkamis, Mustafa and Caliskan, Sevgi

Subjects

*LEAF area index, *LEAF temperature, *NITROGEN in water, *PHOTOSYNTHETIC rates, *AGRICULTURE, *POTATOES

Abstract

Water and nitrogen are widely used agricultural inputs in potato production areas. However, the excessive and inappropriate use of these significant inputs may lead to the rapid depletion of water resources and inappropriate nitrogen leakage. In potato production, insight into the effects of water and nitrogen on the physiological properties will help to overcome these difficulties. This study was therefore conducted to determine the effects of different nitrogen and irrigation levels on the physiological (photosynthesis rate, leaf area index, leaf chlorophyll content, and leaf temperature) characteristics of potato. Field experiments were conducted during the 2021–2022 and 2022–2023 primary potato cropping seasons to select the suitable combination of irrigation and fertilization levels for potato production in the Nigde Province of the Central Anatolia Region of Turkey. Employing a factorial design, the study encompassed six nitrogen fertilization rates and three irrigation levels. Measurements were systematically recorded at five distinct intervals (40, 50, 60, 70, and 80 days) post-emergence. The outcomes underscored that nitrogen treatments augmented physiological traits, manifesting in heightened photosynthetic rates, chlorophyll content, and leaf area indices, barring leaf temperature, in comparison to the control group (devoid of nitrogen treatments). Full irrigation (I1) yielded the utmost values for both photosynthesis and leaf area index, with I1N3 (full irrigation and intermediate nitrogen supply) was identified as the most efficacious treatment for these parameters. This study identifies the most appropriate nitrogen and irrigation application for optimum physiological yield of the potato for crop producers. However, it is important to note that the study focused solely on one commercial potato cultivar (Agria), and further research on various potato cultivars is recommended for more conclusive results. [ABSTRACT FROM AUTHOR]

Published

2024

18. Convective Drying of Potato Slices: Impact of Ethanol Pretreatment and Time on Drying Behavior, Comparison of Thin-Layer and Artificial Neural Network Modeling, Color Properties, Shrinkage Ratio, and Chemical and ATR-FTIR Analysis of Quality Parameters.

Author

Tepe, Tolga Kağan

Subjects

*ARTIFICIAL neural networks, *PRINCIPAL components analysis, *BIOACTIVE compounds, *ANALYTICAL chemistry, *ETHANOL, *POTATOES

Abstract

The present study examined the impact of ethanol pretreatment and drying time on various aspects, including drying characteristics, modeling using thin-layer and artificial neural network (ANN) approaches, color changes during the drying process, shrinkage ratio, total phenolic content (TPC), and antioxidant activity (AA) analysis, as well as ATR-FTIR analysis and principal component analysis (PCA) of the potato slices. Ethanol concentration and pretreatment time had an incredible effect on drying rate and drying time. Higher ethanol concentration and longer pretreatments time provided shorter drying time and a more rapid drying rate. On the other hand, ANN modeling of the potato slices showed better prediction than thin-layer modeling. According to the total color difference (ΔE) values of the samples, ethanol pretreatments had a negative contribution to color properties. Furthermore, the shrinkage ratio of potato samples was affected by drying and ethanol pretreatment time. Diameter shrinkage increased with the increment in ethanol concentration and pretreatment time. TPC and AA of the potato slices showed to decreasing tendency during the drying process. The highest loss of TPC and AA was observed from the samples coded 60 °C + 100 ET 15 and 60 °C + 100 ET 30. Additionally, ATR-FTIR and PCA analysis well exhibited the effect of the ethanol pretreatment and drying process on the composition of the potato slices. [ABSTRACT FROM AUTHOR]

Published

2024

19. Mycorrhizae enhance minituber weight and nutrient content in potatoes transferred from in vitro to hydroponic culture under different phosphorus levels.

Author

Ghobadi, Mostafa, Movahhedi Dehnavi, Mohsen, Yadavi, Ali Reza, Motalebifard, Rahim, and Parvizi, Khosro

Subjects

*MYCORRHIZAS, *TUBERS, *NUTRIENT uptake, *POTATOES, *MYCORRHIZAL fungi, *PHOSPHORUS, *FACTORIAL experiment designs

Abstract

The survival and productivity of potato plantlets transplanted from in vitro to commercial hydroponic minituber culture are crucial. Mycorrhizal fungi are an efficient tool to enhance potato nutrient uptake, survival, and productivity under these conditions. This study aimed to assess the effect of mycorrhizal fungi on improving the yield of minitubers and nutrient uptake in potatoes transferred from the in vitro environment to the greenhouse. This study was conducted in a greenhouse in Hamadan province, I.R. Iran, in 2013. The experimental design was factorial, including treatments with and without inoculation with the mycorrhizal fungus Rhizophagus irregularis and varying phosphorus (P) concentrations in Hoagland's solution (100%, 75%, 50%, and 25% of its maximum content, i.e. 0.965, 0.482, 0.241, and 0.12 mM H2PO4-) with three replications on potato plantlets transferred from in vitro to pots. The results indicated that the highest colonization percentage was achieved with 25% P and inoculation. The highest number of minitubers (8.9), total minituber weight per plant (53.2 grams), plant height (54.6 cm), minituber (0.38%) and leaf (0.363%) P content, minituber (33 mg/kg) and leaf (65 mg/kg) manganese (Mn) content, and minituber (38 mg/kg) and leaf (65 mg/kg) zinc (Zn) content were obtained with inoculation and 75% P of Hoagland nutrient solution, which was statistically comparable to the inoculation with 100% P treatment. In summary, inoculating potato plantlets with mycorrhiza can enhance minituber yield and nutrient uptake and potentially replace approximately 50% of the P requirement in hydroponic solutions. [ABSTRACT FROM AUTHOR]

Published

2024

20. Kartofun yetişdirilmə texnologiyası.

Author

Mənsumova, Gülü, Cəfərova, Qızıllı, and Məmmədov, Bəhman

Subjects

CULTIVARS, GARDENING, SOIL heating, TUBERS, ATMOSPHERIC temperature, POTATOES

Abstract

The article mentions how potatoes play an important role in people's lives, planting technology, potato plant care rules, productivity. At the same time, the soil and climatic conditions of the potato plant, the vegetation period, and the irrigation technology were noted. The most productive regions of the country for growing this crop are the southern steppes, where potatoes can produce high yields with sufficient irrigation. At the same time, it is noted that the conditions for growing plants in the summer months are quite harsh during this period. High air temperature, strong warming of the soil, frequent dry winds and uneven precipitation, etc. It is noted that the influence of all the above-mentioned factors leads to the development of small tubers, especially for mid-ripening, late and mid-late varieties. Also, the results obtained from potato varieties planted for research purposes in Nakhchivan Autonomous Respublic were mentioned. [ABSTRACT FROM AUTHOR]

Published

2024

21. Effect of potassium humate spray on some biochemical characteristics in potato leaves Solanum tuberosum under water stress conditions.

Author

Hassan, Hadia, Suleiman, Sawsan, and Dais, Maher

Subjects

POTATOES, POTASSIUM, WATER shortages, SPRING, AGRICULTURAL research, PROLINE

Abstract

Copyright of Baghdad Science Journal is the property of Republic of Iraq Ministry of Higher Education & Scientific Research (MOHESR) and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

22. The Abscisic Acid Receptor Gene StPYL8-like from Solanum tuberosum Confers Tolerance to Drought Stress in Transgenic Plants.

Author

Yao, Panfeng, Zhang, Chunli, Sun, Chao, Liu, Yuhui, Liu, Zhen, Wei, Jia, Su, Xinglong, Bai, Jiangping, Cui, Junmei, and Bi, Zhenzhen

Subjects

DROUGHT tolerance, TRANSGENIC plants, ABIOTIC stress, DROUGHTS, PROLINE, POTATOES

Abstract

Pyrabactin resistance 1-like (PYL) proteins are abscisic acid (ABA) receptors that play a crucial role in the plant's response to adverse environmental conditions. However, as of yet, there is limited research on the role of PYL proteins in potato. In this study, a potato PYL gene, StPYL8-like, was identified through transcriptome analysis under drought stress. Molecular characterization revealed that the StPYL8-like protein possesses a highly conserved PYL family domain. Evolutionary analysis demonstrated that StPYL8-like protein clusters with various PYL proteins are involved in stress responses across different species. Functional assays showed that StPYL8-like robustly responds to different abiotic stresses, including drought and ABA treatment. Furthermore, the transient and stable expressions of StPYL8-like in tobacco enhanced their drought resistance, leading to increased plant height, leaf number, and fresh weight, as well as an improved root system. Transgenic tobacco carrying the StPYL8-like gene exhibited lower malondialdehyde (MDA) levels and higher proline accumulation and antioxidant enzyme activity compared to wild-type plants under drought conditions. Moreover, StPYL8-like upregulated the expression of stress-responsive genes (NtRD29A, NtLEA5, NtP5CS, NtPOD, NtSOD, and NtCAT) in transgenic plants subjected to drought stress. Collectively, these findings highlight the positive regulatory role of the StPYL8-like gene in enhancing potato plants' response to drought stress. [ABSTRACT FROM AUTHOR]

Published

2024

23. Investigation of the Traveling Performance of the Tracked Chassis of a Potato Combine Harvester in Hilly and Mountainous Areas.

Author

Chen, Yangzhou, Wang, Zeyu, Zhang, Hua, Liu, Xiaolong, Li, Hui, Sun, Wei, and Li, Hongling

Subjects

COMBINES (Agricultural machinery), POTATOES, CROPS, TRENCHES, SIMULATION methods & models

Abstract

Aiming at the problems of poor passability of a tracked chassis due to small plots, complicated road conditions and steep slopes during mechanized potato harvesting in hilly and mountainous areas. To design a potato combine harvester and take the tracked chassis of the harvester as the research object to study its driving performance under typical road conditions in mountainous areas. Firstly, mechanical analysis and theoretical calculation are carried out on the tracked chassis to obtain the relevant parameters of key components, and secondly, its driving performance is analyzed to obtain the driving limit values of passing performance under different working conditions; RecurDyn software was used to establish the dynamics simulation and analysis model of the whole machine, and the driving limit values of the harvester were determined under five different road conditions through simulation. The results show the following: the driving limit gradient angle is 20° in cross-gradient conditions, 25° in longitudinal up-gradient conditions, 25° in longitudinal down-gradient conditions, the limiting height of the chassis that can be overpassed in obstacle-crossing conditions is 450 mm, and the limiting width of the chassis that can be spanned in trench-crossing conditions is 1200 mm. The simulation results were verified through field tests, and the results of the field tests showed that the harvester met the requirements of stable travelling on longitudinal slopes of 24°, climbed over a 450 mm straight wall and crossed over a 1200 mm trench, which were similar to the simulation results, indicating that the simulation results were accurate and feasible, and met the design requirements for the travelling passage of the crawler potato harvester. This study provides an in-depth understanding of the tracked chassis of the potato combine harvester in hilly mountainous areas, with a view to providing reference for the design of tracked harvesters for other crops in hilly mountainous areas. [ABSTRACT FROM AUTHOR]

Published

2024

24. Genotype by Environment Interaction (GEI) Effect for Potato Tuber Yield and Their Quality Traits in Organic Multi-Environment Domains in Poland.

Author

Tatarowska, Beata Ewa, Plich, Jarosław, Milczarek, Dorota, Boguszewska-Mańkowska, Dominika, and Zarzyńska, Krystyna

Subjects

GENOTYPE-environment interaction, ORGANIC farming, TUBERS, CROPS, GENOTYPES, POTATOES

Abstract

Potatoes (Solanum tuberosum L.) are an important plant crop, whose yield may vary significantly depending on pedo-climatic conditions and genotype. Therefore, the analysis of the genotype × environment interaction (GEI) is mandatory for the setup of high-yielding and stable potato genotypes. This research evaluated the tuber yield (t ha−1) and yield characteristic of nine potato cultivars over 3 years and 4 organic farms in Poland by additive main effects and multiplicative interactions (AMMIs) and genotype plus genotype environment interaction (GGE) biplot analyses. The results of these analyses indicated significant differentiation of tuber yield among genotypes in individual environments. It was found that the environment (E, where E = L (localization) × Y (year)), genotype (G) and GEI, but not replication, significantly affected tuber yield. The AMMI analysis showed that the environment factor explained the most considerable part of tuber yield variations (52.3%), while the GEI and G factors explained a much lower part of the variations. The AMMI and GGE analyses identified five cvs.: Twister (46.4 t ha−1), Alouette (35.8 t ha−1), Kokra (34.8 t ha−1), Levante (33.1 t ha−1), and Gardena (30.4 t ha−1), as leading cultivars in the studied organic farms due to their high productivity coupled with yield stability. The statistical measure Kang (YSi) showed that these cvs. can be considered as adaptable to a wide range of organic environments. In the case of morphological traits of tubers (tuber shape and depth of tuber eyes), the most important factor influencing both these traits was genotype (G). Influence of other factors, like localization (L), year (Y), and all interactions (double and triple), were much less significant or insignificant. In case of taste and non-darkening of tuber flesh, the main effects which significantly affected the values of these traits were genotype (G) and localization (L). We observed that cooking type can vary depending on the year (Y) and the localization (L). [ABSTRACT FROM AUTHOR]

Published

2024

25. Obtaining and study of biodegradable granules loaded with oxamyl as eco-friendly preparation for Globodera rostochiensis control.

Author

Sukhanova, A. A., Boyandin, A. N., Ertiletskaya, N. L., and Churakov, A. A.

Subjects

*GOLDEN nematode, *CYST nematodes, *POTATOES, *MONTMORILLONITE, *CLAY, *NEMATOCIDES

Abstract

Potato cyst nematodes (PCNs) pose a great challenge for potato cultivation throughout the world. Being a rather difficult parasite due to a number of its physiological features, specifically a long-term viability of the eggs, PCN causes drastic damage to worldwide agriculture. Development of long-acting preparations deposited with nematicidal ingredients could be a novel prospective approach to PCNs management. In this study, composite granules based on polycaprolactone and montmorillonite (PCL/MMT) (100:0; 90:10; 75:25; 50:50) were studied as carriers for oxamyl nematicide. It was shown that the obtained granules are able to postpone the hydrolysis of oxamyl from 17 to 27 days and facilitate its gradual release. The maximum release of oxamyl in water was noted for PCL/MMT 50% granules and amounted to 70.3 µg/ml on day 14. Meanwhile, oxamyl release in soil had relatively the same trend for all the granules with the most release in the first 20 days. Kinetic models demonstrated that for all PCL/MMT granules the release was due to diffusion mechanism. The nematicidal effect of PCL/MMT 50% granules with oxamyl against G. rostochiensis has been demonstrated on potato variety "Krasnoyarskiy ranniy". [ABSTRACT FROM AUTHOR]

Published

2024

26. Optimization of Process Parameters for Microwave Drying of Yellow- and Purple-Fleshed Potatoes.

Author

Coruk, Katibe Sinem and Baltacıoğlu, Hande

Subjects

*MICROWAVE drying, *RESPONSE surfaces (Statistics), *FOOD industry, *BIOACTIVE compounds, *INDEPENDENT variables, *POTATOES

Abstract

The main objective of the present work was to study the optimization of microwave drying of potatoes that have different flesh colors. The effects of independent variables of microwave power (300, 450, 600 W), slice thickness (2–4, 6 mm), and steam blanching time (2, 5, 8 min) on the color, total phenolic content (TPC), antioxidant activity, starch ratio, and total monomeric anthocyanin content (TMA) were investigated by using the Response Surface Methodology (RSM). Before drying, potato slices that had different thicknesses were blanched in steam at 90 °C for indicated times. Optimization was applied to improve bioactive compounds, starch ratio, and color. The optimum drying parameters were determined as 300 W, 6 mm, and 8 min for purple-fleshed potatoes, and 450 W, 6 mm, and 2 min for yellow-fleshed potatoes. This study is beneficial to the development of the processing of potatoes in the food industry and provides more insights into the application of microwave drying technology. [ABSTRACT FROM AUTHOR]

Published

2024

27. Potato Production Forecasting Based on Balance Dynamic Biruni Earth Radius Algorithm for Long Short-Term Memory Models.

Author

Towfek, S. K. and Alhussan, Amel Ali

Subjects

*MACHINE learning, *AGRICULTURAL forecasts, *OPTIMIZATION algorithms, *STANDARD deviations, *FARM management, *POTATOES

Abstract

Potatoes stand as one of the most vital staple crops globally, providing essential nourishment and sustenance to millions of people worldwide. Their significance lies in their versatility, nutritional richness, and ability to thrive in diverse climates, making them crucial for global food security. However, accurately forecasting potato production is paramount for effective agricultural planning and ensuring an adequate food supply. In this research endeavour, we introduce a novel approach to enhance the precision of potato production forecasts using advanced machine learning techniques. Our methodology revolves around employing long short-term memory (LSTM) models, which are optimised through the innovative Balance Dynamic Biruni Earth Radius Optimization Algorithm (BDBER). This algorithm dynamically adjusts exploration and exploitation strategies, effectively navigating the solution space to optimise the parameters of the LSTM model. By harnessing the power of machine learning and algorithmic optimization, we aim to improve the accuracy of annual potato production forecasts. To evaluate the efficacy of our approach, we compare the performance of the optimised LSTM models with traditional machine learning algorithms. Various performance metrics are scrutinised, and statistical tests, including ANOVA and Wilcoxon signed rank tests, are conducted to bolster the credibility of our findings. Our analysis reveals that the LSTM models optimised by BDBER surpass alternative methods, exhibiting superior accuracy and stability in potato production forecasting. Notably, the root mean square error (RMSE) of 0.00899 and fitted time of 0.00449 underscore the robustness of our approach. This study represents a pivotal contribution to the advancement of agricultural forecasting techniques. By providing more accurate and reliable predictions, our methodology equips policymakers and stakeholders with invaluable insights for informed decision-making. Ultimately, our research endeavours to bolster global food security and promote sustainable agricultural practices. [ABSTRACT FROM AUTHOR]

Published

2024

28. Forecasting Production of Potato for a Sustainable Future: Global Market Analysis.

Author

Mishra, Pradeep, Alhussan, Amel Ali, Khafaga, Doaa Sami, Lal, Priyanka, Ray, Soumik, Abotaleb, Mostafa, Alakkari, Khder, Eid, Marwa M., and El-kenawy, El-Sayed M.

Subjects

*BOX-Jenkins forecasting, *SUSTAINABLE agriculture, *SUSTAINABILITY, *AGRICULTURAL economics, *AGRICULTURAL productivity, *POTATOES

Abstract

This study goes into the essential challenge of estimating potato output in order to ensure sustainable agricultural practices while also providing vital insights into global market patterns. The potato production data series compares the accuracy of two popular forecasting models, ARIMA (AutoRegressive Integrated Moving Average) and ETS (Error-Trend-Seasonality), in predicting potato production. The study assesses the efficacy of these models with a particular focus on their relevance to the agricultural markets of India, China, and the USA, three major potato-producing countries. This research builds ARIMA and ETS models and thoroughly assesses their forecasting performance using historical production data series from these important nations. The results show that the ETS model, especially when considering the chosen countries, consistently performs better in predicting potato production for the testing data set than the ARIMA model. According to the models, China and India will keep contributing more to the potato market, solidifying their positions as key players. It is anticipated that the US economy will plateau and stabilize. For the anticipated year 2027, the expected potato output for China, India, and the USA is 100,417, 61,882, and 18,229 thousand tonnes, respectively. Nonetheless, the increasing diversity of confidence intervals in extended forecasts illustrates the intricacy of agricultural productivity and the numerous factors that could impact outcomes. We believe that this research significantly advances sustainable farming methods by offering a thorough analysis of worldwide potato production projections. It also improves our comprehension of the dynamics of the potato market, providing insightful information that can guide decision-making at different levels. In the conclusions, we stated that the studies not only have consequences for the potato sector, but they also highlight how crucial it is to use cutting-edge forecasting methods in order to promote sustainable food production and guarantee future food security. [ABSTRACT FROM AUTHOR]

Published

2024

29. Effect of Using Corn Industry Wastewater as Irrigation Water in Potato Crops (Solanum tuberosum).

Author

Bacame-Valenzuela, Francisco Javier, García-Méndez, Liliana M., Sandoval-Salas, Fabiola, Perez-García, J. A., Aceves-Diez, A., and Reyes-Vidal, Y.

Subjects

*SEWAGE irrigation, *CHEMICAL oxygen demand, *WATER shortages, *IRRIGATION water, *CORN industry, *POTATOES

Abstract

Water scarcity affects more than 40% of the population; in addition, 70% of all water extracted from aquifers is used for irrigation, reducing its availability for human consumption. Therefore, irrigation of crops with wastewater helps reduce water scarcity. In Mexico, high chemical oxygen demand (COD)-value wastewater is generated by the cooking process of corn (Zea mays). In this work, the use of this effluent for the irrigation of potato crops (Solanum tuberosum) is proposed. Four treatments were applied: (A) water, (B) water with fertiliser, (C) 100% wastewater and (D) 50% wastewater, both residual effluent of the cooking corn process. In the determination of biomass, in the number of leaves, there were no differences between the treatments; instead, for the height of the plants, A and B were higher for day 32. Treatment B obtained the highest production of tubers, followed by treatment A. Treatment C achieved 80% of the production of treatment A, suggesting that the components of the wastewater can be used as nutrients by potato plants. Being necessary for a study on the affectation on soil fertility, the use of treated wastewater to irrigate crops represents a viable alternative to reduce the effluents commonly discharged into natural spaces. Furthermore, if the composition of the treated wastewater is known, a water resource added with the compounds present that can improve the crop can be offered as a source of water to mitigate its increasingly high scarcity worldwide. [ABSTRACT FROM AUTHOR]

Published

2024

30. Detection of Indian Isolates of Soil and Tuber Borne Ralstonia solanacearum (Smith) Infecting Potato (Solanum tuberosum L.) Through a Colorimetric LAMP Assay.

Author

Archana, T., Kamalakannan, A., Gopalakrishnan, C., Johnson, I., Rajendran, L., Varanavasiappan, S., Rajesh, S., and Thamaraiselvi, S. P.

Subjects

*POTATOES, *SEED potatoes, *PLANT diseases, *RALSTONIA solanacearum, *LATENT infection, *BACTERIAL wilt diseases, *BETAINE

Abstract

Bacterial wilt caused by Ralstonia solanacearum, is one of the most notorious plant diseases of potato and causes severe yield losses globally. R. solanacearum produces fluidal white coloured colonies with a light pink centre on casamino acid-peptone-glucose medium. Bacterial wilt pathogen is soil as well as tuber borne, so early detection of bacterial wilt pathogen is necessary to take up timely management practices. Traditional methods used for detection of R. solanacearum are labour-intensive, expensive, time-consuming and can be carried out only in well-equipped laboratories. Hence, the present study was aimed to develop a loop-mediated isothermal amplification (LAMP) assay for R. solanacearum, as an alternative approach for quick and efficient detection of the bacterial wilt. LAMP reaction mix was optimized by adjusting the concentrations of MgSO4, dNTPs, betaine, and time, temperature etc. The optimum temperature and time for the detection of R. solanacearum were 65 °C and 50 min, respectively. The positive samples showed colour change from violet and were reconfirmed in 2% agarose gel electrophoresis which produced ladder like bands. The LAMP assay developed was highly specific to detect R. solanacearum from other bacteria and sensitive with a lowest detection limit of 10 pg/µl of template DNA. The developed LAMP assay was validated with R. solanacearum isolates, infected stems, tubers and soil, and also, it was capable of detecting latent infection of R. solanacearum in seed tubers. Hence, the LAMP assay protocol provides a rapid, specific and sensitive tool for the latent detection of R. solanacearum in seed potato tubers. [ABSTRACT FROM AUTHOR]

Published

2024

31. Factors Affecting the Performance of a Potato Digger—A Review.

Author

Parihar, Neeraj Singh, Sharma, Sushil, and Khar, Sanjay

Subjects

*NUTRITIONAL value, *POTATOES, *SIEVES, *OSCILLATIONS, *CARBOHYDRATES

Abstract

Potatoes, a cornerstone of Indian agriculture, hold immense nutritional value, contributing significantly to vitamin-rich, low-cost carbohydrates. The efficiency of potato harvesting is paramount, requiring a timely and well-coordinated process. This review encapsulates the historical progression in potato harvesting, from manual approaches to the adoption of various potato diggers—animal-drawn, power tiller-operated, engine-operated, tractor-drawn, and self-propelled, categorized by their power sources. The study emphasizes key design parameters influencing digger performance, such as forward speed, rake angle, digging depth, sieve oscillation, and digging share types. This comprehensive exploration aims to enhance our understanding of potato diggers' diverse landscape, fostering informed decisions for sustainable and efficient harvesting. [ABSTRACT FROM AUTHOR]

Published

2024

32. Enhancing Cadmium Stress Tolerance in Potato Plants Through Overexpression of the VvWRKY2 Transcription Factor.

Author

Chiab, Nour, Charfeddine, Safa, Ayadi, Mariam, Abdelkafi, Yosr, Mzid, Rim, Gargouri-Bouzid, Radhia, and Nouri-Ellouz, Oumèma

Subjects

*TRANSCRIPTION factors, *PLANT cells & tissues, *TRANSGENIC plants, *CULTIVARS, *PLANT proteins, *POTATOES

Abstract

WRKY transcription factors (TF) are identified as important regulating plant proteins involved in stress response signaling pathways. Overexpression of these transcription factors in plants improved plant biotic and abiotic stress responses. In this context, we have envisaged transferring a cDNA encoding the grapevine VvWRKY2TF in potato plants. Four transgenic lines were selected (BFW2A, BFW2C, BFW2D, and BFW2F). In the present study, their response to Cadmium (Cd) stress (50, 100, 150, and 300 μM) was evaluated in vitro. Cadmium is recognized as being among the most harmful heavy metals to plants. Its accumulation in plant cells and tissues disturbs cell homeostasis and causes numerous metabolic damages that affect productivity. The wildtype (WT) plants from the BF15 potato variety and the transgenic plants overexpressing VvWRKY2TF were submitted to cadmium in vitro stress for 20 days. Plant growth and oxidative stress parameters were followed in these plants. All transgenic plants appeared more vigorous than WT. The BFW2A, BFW2C, and BFW2D lines showed better stem development rates than the WT and BFW2F lines. Malondialdehyde (MDA) production in both roots and leaves was reduced in BFW2A, BFW2C, and BFW2D plants as compared to BFW2F and WT plants. This result was associated with the best antioxidant activities of superoxide dismutase (SOD) and catalase (CAT) displayed by these genetically modified lines suggesting their better adaptation to Cd stress conditions. Cd accumulation in plant tissues was investigated, and higher levels of Cd were found in transgenic plants than in WT plants. These findings point to a functional Cd sequestration mechanism in the roots of transgenic plants expressing VvWRKY2. These findings imply that the VvWRKY2 TF is implicated in heavy metal response signaling processes. Its overexpression in plants may be an efficient strategy to reduce the negative effects of Cd stress, promoting the growth patterns and the activity of reactive oxygen species-scavenging enzymes in potato plants. [ABSTRACT FROM AUTHOR]

Published

2024

33. Potato: from functional genomics to genetic improvement.

Author

Qu, Li, Huang, Xueqing, Su, Xin, Zhu, Guoqing, Zheng, Lingli, Lin, Jing, Wang, Jiawen, and Xue, Hongwei

Subjects

*FUNCTIONAL genomics, *MOLECULAR biology, *FOOD crops, *POTATOES, *TUBERS, *POTATO quality

Abstract

Potato is the most widely grown non-grain crop and ranks as the third most significant global food crop following rice and wheat. Despite its long history of cultivation over vast areas, slow breeding progress and environmental stress have led to a scarcity of high-yielding potato varieties. Enhancing the quality and yield of potato tubers remains the ultimate objective of potato breeding. However, conventional breeding has faced challenges due to tetrasomic inheritance, high genomic heterozygosity, and inbreeding depression. Recent advancements in molecular biology and functional genomic studies of potato have provided valuable insights into the regulatory network of physiological processes and facilitated trait improvement. In this review, we present a summary of identified factors and genes governing potato growth and development, along with progress in potato genomics and the adoption of new breeding technologies for improvement. Additionally, we explore the opportunities and challenges in potato improvement, offering insights into future avenues for potato research. [ABSTRACT FROM AUTHOR]

Published

2024

34. In Vitro Assay Development to Study Pulse Field Ablation Outcome Using Solanum Tuberosum.

Author

Narkar, Akshay, Kaboudian, Abouzar, Ardershirpour, Yasaman, Casciola, Maura, Feaster, Tromondae K., and Blinova, Ksenia

Subjects

*POTATOES, *TECHNOLOGICAL innovations, *ARRHYTHMIA, *CELL permeability, *ELECTRIC fields, *ELECTROPORATION

Abstract

Exposing cells to intense and brief electric field pulses can modulate cell permeability, a phenomenon termed electroporation. When applied in medical treatments of diseases like cancer and cardiac arrhythmias, depending on level of cellular destruction, it is also referred to as irreversible electroporation (IRE) or Pulsed Field Ablation (PFA). For ablation device testing, several pulse parameters need to be characterized in a comprehensive manner to assess lesion boundary and efficacy. Overly aggressive voltages and application numbers increase animal burden. The potato tuber is a widely used initial model for the early testing of electroporation. The aim of this study is to characterize and refine bench testing for the ablation outcomes of PFA in this simplistic vegetal model. For in vitro assays, several pulse parameters like voltage, duration, and frequency were modulated to study effects not only on 2D ablation area but also 3D depth and volume. As PFA is a relatively new technology with minimal thermal effects, we also measured temperature changes before, during, and after ablation. Data from experiments were supplemented with in silico modeling to examine E-field distribution. We have estimated the irreversible electroporation threshold in Solanum Tuberosum to be at 240 V/cm. This bench testing platform can screen several pulse recipes at early stages of PFA device development in a rapid and high-throughput manner before proceeding to laborious trials for IRE medical devices. [ABSTRACT FROM AUTHOR]

Published

2024

35. Pythium aphanidermatum as a Novel Oomycete Pathogen Causing Leak on Potato (Solanum tuberosum) in Korea.

Author

Kim, Yu Jin, Chung, Eui-Hwan, and Kim, Ki Deok

Subjects

*CYTOCHROME oxidase, *FOOD crops, *TUBERS, *REPORTING of diseases, *MITOCHONDRIAL DNA, *POTATOES

Abstract

Potato (Solanum tuberosum L.) is one of the most important food crops in Korea. In July 2021 and 2022, dark black-rot symptoms with pink tinges were observed on field-grown potato tubers in Hongsung and Chuncheon, Korea, respectively. We obtained four isolates (HSv05 and HSv10 from Hongsung, and CCp03 and CCp05 from Chuncheon) from diseased tubers and identified these isolates as Pythium aphanidermatum by analyzing the sequences of internal transcribed spacer rDNA region and mitochondrial cytochrome c oxidase subunit II (COX2) mtDNA gene. Additionally, we compared the cultural and morphological characteristics of these four isolates with those of the reference isolate KACC 48066 of P. aphanidermatum and the literature. Further, we tested the pathogenicity of all these isolates against potato tubers. The cultural and morphological characteristics of the four test isolates were similar to those of the reference isolate and the literature; all four test isolates proved pathogenic to potato tubers. Therefore, we concluded that P. aphanidermatum is the causal agent of potato leak and this is the first report of the disease on potato in Korea. [ABSTRACT FROM AUTHOR]

Published

2024

36. The effect of pyrazinamide and AgNO3 as ethylene inhibitors on some growth and biochemical parameters of in vitro potato (Solanum tuberosum L.) culture.

Author

M., Delavari, A. A., Ehsanpour, and S. H., Moazzami Farida

Subjects

*PLANT tissue culture, *VEGETATIVE propagation, *LEAF area, *FARM produce, *PHOTOSYNTHETIC pigments, *POTATOES, *PLANT regulators

Abstract

Aim: Potato (Solanum tuberosum L.) is a key crop within the Solanaceae family and ranks as the most significant non-cereal crop globally following major staples such as wheat, rice, and corn. Potatoes can reproduce sexually and asexually via tubers, and plant tissue culture is emerging as an effective method for vegetative propagation, addressing the increasing global demand for agricultural products. Ethylene, a critical plant growth regulator, influences various physiological processes including growth and development. During in vitro culture and due to the wounding of explants, ethylene accumulation can lead to abnormal biological responses, with potato seedlings being susceptible. Thus, investigating the effects of ethylene biosynthesis inhibitors such as pyrazinamide (PZA) and AgNO3 on potato growth in vitro is essential. Material and Methods: In this study, potato seedlings were cultivated in Murashige and Skoog (MS) medium, with concentrations of PZA ranging from 0 to 6 mg L-1 and AgNO3 at 2 mg L-1. After four weeks, the seedlings were harvested and stored at -70°C for later analysis. The growth parameters measured included fresh weight (FW), dry weight (DW), stem and root lengths, leaf area, and leaf and root number. In addition, biochemical parameters, such as photosynthetic pigment levels, total phenol content (TPC), total reactive oxygen species (ROS), and proline concentration were analyzed. Statistical evaluations were conducted using SPSS and PAST software Results: The results showed that the 2 mg L-1 PZA treatment led to the highest FW and DW and increased leaf numbers; however, it was also correlated with a lower number of rooted plants. Conversely, treatments with 6 mg L-1 PZA promoted longer stem growth, whereas control plants exhibited the largest leaf area, and AgNO3-treated plants produced the longest roots. The accumulation of H2O2 in plants treated with ethylene inhibitors was like controls, but total ROS levels soared by 36% in those treated with 6 mg L-1 PZA compared to controls. This suggests a link between reduced ethylene production, oxidative stress mitigation, and enhanced potato growth. Additionally, total ROS was positively correlated with stem length, but negatively correlated with root length. Plants use several strategies to combat the damaging effects of ROS, such as the production of antioxidant compounds such as phenolics. Although PZA did not significantly alter TPC compared to controls, treatment with AgNO3 caused a 61% reduction in TPC. Therefore, PZA did not appear to significantly affect phenolics production in the potato seedlings. Proline, another critical antioxidant in plants, was found to accumulate significantly in the leaves of plants treated with 6 mg L-1 PZA, which was more than 2.3 times higher than that in controls. This accumulation correlated positively with ROS levels at higher PZA concentrations but showed an inverse relationship with photosynthetic pigment levels. The PCA revealed the relationships between the measured parameters and the applied elicitors. The samples were categorized into four distinct groups: 1. Control group: This group primarily exhibited higher FW, DW, and longer roots compared to the treated plants. 2. Low PZA dose group: These plants displayed elevated levels of photosynthetic pigments, TPC, and leaf area. 3. Medium PZA dose group: Correlations were observed with an increased number of roots. 4. 6 mg L-1 PZA and AgNO3 group: These samples contained elevated levels of total ROS and proline. Conclusion: The study concludes that low concentrations of PZA can stimulate growth while inhibiting ethylene production, resulting in fewer growth abnormalities compared to control plants. However, at elevated PZA concentrations, increased ROS levels may lead to oxidative stress, emphasizing the delicate balance in ethylene's role in plant growth and the necessity for further research to optimize conditions for potato cultivation in vitro. The findings contribute to a deeper understanding of how ethylene inhibitors can enhance potato propagation and possibly other crops in controlled agricultural environments. [ABSTRACT FROM AUTHOR]

Published

2024

37. Studies on Pre-harvest Spray of Alpha-NAA on Potato Crop in Relation to Enhance Potato (Solanum tuberosum L.) Tubers Storage.

Author

Mandal, Neelam Kumari, Mukherjee, D., Kumar, Kuldeep, Singh, Surender, Mandal, Balwan Singh, and Arya, Rajesh Kumar

Subjects

*TUBERS, *GERMINATION, *BOTANY, *ACETIC acid, *SPROUTS, *POTATOES

Abstract

The present investigation on a pre-harvest spray of alpha-1-naphthalene acetic acid (alpha-NAA) on potato crops in relation to improving the storage ability was undertaken in the Botany Department of Kurukshetra University, Kurukshetra, India on Solanum tuberosum cv. 'Kufri Chandermukhi'. Sprout initiation was observed in tubers on the 20th day, with 4.0 x 10-4 M application of alpha-NAA during storage. In control, it was prominently noticed on the first observation made on the 10th day (0.8 mm), whereas in the treated one, it was very small. These treatments were able to check the percentage of sprouting. Rottage was observed after the 40th day of storage. The decline in starch content was less in the treatment group than in the control group up to the 20 days, but a reverse trend was witnessed after that compared with initial values. The starch contents were significantly higher in treated tubers than untreated in most stages. After 40 days, per cent cumulative physiological weight loss values were 9.20, 9.62, and 10.33% in 4.0 x 10-4 M alpha-NAA, 5.5 x 10-4 M alpha-NAA, and control, respectively. [ABSTRACT FROM AUTHOR]

Published

2024

38. Research on Estimating Potato Fraction Vegetation Coverage (FVC) Based on the Vegetation Index Intersection Method.

Author

Shi, Xiaoyi, Yang, Huanbo, Chen, Yiwen, Liu, Runfeng, Guo, Taifeng, Yang, Liangliang, and Hu, Yaohua

Subjects

*MAXIMUM entropy method, *CROP management, *MICROIRRIGATION, *FEATURE selection, *VISIBLE spectra, *POTATOES

Abstract

The acquisition of vegetation coverage information is crucial for crop field management, and utilizing visible light spectrum vegetation indices to extract vegetation coverage information is a commonly used method. However, most visible light spectrum vegetation indices do not fully consider the relationships between the red, green, and blue bands during their construction, making it difficult to ensure the accurate extraction of coverage information throughout the crop's entire growth cycle. To rapidly and accurately obtain potato vegetation coverage information, drones were used in this study to obtain high-resolution digital orthoimages of potato growth stages. Based on the differences in the grayscale values of potato plants, soil, shadows, and drip irrigation belts, this study presents a combination index of blue and green bands (BGCI) and a combination index of red and green bands (RGCI). The vegetation index intersection method was used with 10 vegetation information indices to extract vegetation coverage, and the differences in extraction accuracy were compared with those of the maximum entropy method and bimodal histogram method. Based on the high-precision fraction vegetation coverage (FVC) extraction results, the Pearson correlation coefficient method and random forest feature selection were used to screen 10 vegetation and 24 texture features, and the top six vegetation indices most strongly correlated with the FVC were selected for potato growth stage FVC estimation and accuracy verification. A high-precision potato vegetation coverage estimation model was successfully established. This study revealed that during the potato tuber formation and expansion stages, the BGCI combined with the vegetation index intersection method achieved the highest vegetation coverage extraction accuracy, with overall accuracies of 99.61% and 98.84%, respectively. The RGCI combined with the vegetation index intersection method achieved the highest accuracy, 98.63%, during the maturation stage. For the potato vegetation coverage estimation models, the model based on the BGCI achieved the highest estimation accuracy (R2 = 0.9116, RMSE = 5.7903), and the RGCI also achieved good accuracy in terms of vegetation coverage estimation (R2 = 0.8987, RMSE = 5.8633). In the generality verification of the models, the R2 values of the FVC estimation models based on the BGCI and RGCI were both greater than 0.94. A potato vegetation coverage estimation model was constructed based on two new vegetation information indices, demonstrating good accuracy and universality. [ABSTRACT FROM AUTHOR]

Published

2024

39. 基于机器学习和无人机高光谱遥感的 马铃薯 SPAD 值估算.

Author

陈圯凡, 郭发旭, and 冯 全

Subjects

PARTIAL least squares regression, STANDARD deviations, MATHEMATICAL transformations, BACK propagation, DRONE aircraft, POTATOES

Abstract

Copyright of Journal of Henan Agricultural Sciences is the property of Editorial Board of Journal of Henan Agricultural Sciences and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

40. Crop Nutrition and Soil Fertility Management in Organic Potato Production Systems.

Author

Ierna, Anita and Distefano, Miriam

Subjects

SOIL fertility management, ORGANIC farming, SCIENTIFIC literature, GREEN manure crops, CROPS, POTATOES

Abstract

Organic farming is a comprehensive production management system that fosters and improves the health of agroecosystems, encompassing biodiversity, biological cycles, and soil biological activity. The potato (Solanum tuberosum L.) is a crucial crop in organic farming systems, standing out as one of the most highly demanded organic products on the market. Among all crops, with potatoes, there is a very large yield gap between organic and conventional systems, attributable mainly to its intensive nutrient demands. The present review, considering the most relevant scientific literature worldwide, discusses the contemporary state of knowledge on crop nutrition and soil fertility management in organic potato crop production, analyzing the effects of animal manures, green manures, organic amendments, and biostimulants on organic potato tuber yield and quality. Overall, the main findings show a particular combination is needed to effectively maintain good soil fertility, satisfy the nutritional needs of the crop, and overcome the difference in potato yield between organic and conventional farming methods while meeting consumer demand. This combination entails using an animal manure or leguminous green manure with an organic soil amendment, and even better with a biofertilizer, such as a mycorrhizae-fungus-based one. It also emerged that more targeted studies are needed to select appropriate cultivars for organic potato farming systems to optimize this environmentally friendly production method. [ABSTRACT FROM AUTHOR]

Published

2024

41. Developing a Hyperspectral Remote Sensing-Based Algorithm to Diagnose Potato Moisture for Water-Saving Irrigation.

Author

Suyala, Qiqige, Li, Zhuoling, Zhang, Zhenxin, Jia, Liguo, Fan, Mingshou, Sun, Youping, and Xing, Haifeng

Subjects

POTATOES, PARTIAL least squares regression, POTATO growing, IRRIGATION, PLANT growth, PLANT canopies, SUPPORT vector machines

Abstract

Appropriate water supply is crucial for high-yield and high-quality potato tuber production. However, potatoes are mainly planted in arid and semi-arid regions in China, where the precipitation usually cannot meet the water demand throughout the growth period. In view of the actual situation of water shortage in these areas, to monitor the water status of potato plants timely and accurately and thus precisely control the irrigation are of significance for water-saving management of potatoes. Hyperspectral remote sensing has unique advantages in diagnosing crop water stress. In this paper, the canopy spectral reflectance and plant water content were measured under five irrigation treatments. The spectral parameters that respond to plant water content were selected, and a hyperspectral water diagnosis model for leaf water content (LWC) and aboveground water content (AGWC) of potato plants was established. It was found that potato tuber yield was the highest during the entire growth period under sufficient irrigation, and the plant water content showed a downward trend as the degree of drought intensified. The peak hyperspectral reflectance of potato plant canopies appeared in the red wavelength, where the reflectance varied significantly under different water treatments and decreased with decreasing irrigation. Six models with sensitive bands, first-order derivatives, and moisture spectral indices were established to monitor water content of potato plants. The R2 values of partial least squares regression (PLSR), support vector machine (SVM), and BP neural network (BP) models are 0.8418, 0.9020, and 0.8926, respectively, between LWC and hyperspectral data; and 0.8003, 0.8167, and 0.8671, respectively, between the AGWC and hyperspectral data. These six models can all predict the water content of potato plants, but SVM is the best model for predicting LWC of potato plants. These results are of great significance for guiding precision irrigation of potato plants at different growth stages. [ABSTRACT FROM AUTHOR]

Published

2024

42. IAA Synthesis Pathway of Fitibacillus barbaricus WL35 and Its Regulatory Gene Expression Levels in Potato (Solanum tuberosum L.).

Author

Li, Xiaoyu, Tao, Huan, Wang, Shisong, Zhang, Di, Xiong, Xingyao, and Cai, Yanfei

Subjects

REGULATOR genes, PLANT growth, CARBOHYDRATE metabolism, GROWTH regulators, POLYSACCHARIDES, PLANT growth promoting substances, POTATOES

Abstract

Indole-3-acetic acid (IAA), as an important regulator of potato growth, seriously affects the growth and yield of potato. Although many studies have reported that IAA-producing Bacillus can promote plant growth, little research has been conducted on its synthesis pathway and molecular mechanisms. In this study, an IAA-producing strain WL35 was identified as Fitibacillus barbaricus, and its yield was 48.79 mg·L−1. The results of the pot experiments showed that WL35 significantly increased plant height, stem thickness, chlorophyll content, and number of leaves of potato plants by 31.68%, 30.03%, 32.93%, and 36.59%, respectively. In addition, in the field experiments, WL35-treated plants increased commercial potato yield by 16.45%, vitamin C content by 16.35%, protein content by 75%, starch content by 6.60%, and the nitrogen, phosphorus, and potassium accumulation by 9.98%, 12.70%, and 26.76%, respectively. Meanwhile, the synthetic pathway of WL35 was found to be dominated by the tryptophan-dependent pathway, the IAM, TAM, and IPA pathways worked together, and the pathways that played a role at different times were different. Furthermore, RNA-seq analysis showed that there were a total of 2875 DEGs regulated in the samples treated with WL35 seed dressing compared with the CK, of which 1458 genes were up-regulated and 1417 genes were down-regulated. Potato roots express differential genes enriched in processes such as carbohydrate metabolism processes and cellular polysaccharide metabolism, which regulate potato plant growth and development. The above results provide a theoretical basis for the further exploration of the synthesis pathway of IAA and its growth-promoting mechanism in potato. [ABSTRACT FROM AUTHOR]

Published

2024

43. A gendered assessment of crop traits to improve breeding product design and uptake: the case of potato in Kenya.

Author

Mutiso, Janet Mwende, Mayanja, Sarah, Nyaga, John, Sinelle, Sophie, Renou, Camille, Onyango, Charles, Hareau, Guy, Polar, Vivian, Ashby, Jacqueline, and Okello, Julius Juma

Subjects

FORAGE, PRODUCT design, UNPAID labor, SOCIAL scientists, POTATOES, PRODUCT improvement

Abstract

The study assesses the gender implications of a target product profile for table potato in Kenya. Breeding programs mostly emphasize farmers’ trait requirements and rarely pay attention to other value chain actors’ preferences. This partially contributes to the low uptake of improved varieties. Therefore, efforts are required to assess the gender implications of crop product profile proposals during development, testing, and dissemination. In this paper, we assess the gender implications of traits targeted by a potato breeding program in Kenya using the G+ tools. The study applies the G+ product profile tool to examine the instances the selected traits may exacerbate gender disparity along four domains: unpaid labor, access to employment opportunities, requiring extra inputs and control over benefits. We use mixed methods including a review by social scientists, key informant interviews and a multistakeholder workshop to gather insights from female and male farmers, breeders, and other stakeholders. Findings show that pest, disease resistance, and shelf-life traits benefit women and men in the target customer segments. On the other hand, earliness, dry matter, and yield could increase drudgery for women. The traits increase demand for women’s unpaid labor during harvesting, sorting and food preparation time while also displacing women from profitable nodes. We recommend that gender-responsive strategies accompany the release of the target variety to mitigate inequities and enhance adoption. [ABSTRACT FROM AUTHOR]

Published

2024

44. Genome-wide identification and drought stress-induced expression analysis of the NHX gene family in potato.

Author

Ji Yihong, Liu Zhen, Liu Chang, Shao Ziying, Zhang Ning, Suo Meiqing, Liu Yuhui, and Wang Lei

Subjects

GENE expression, GENE families, POTATOES, PLANT growth, DROUGHTS, PLANT genes

Abstract

NHX proteins are transmembrane antiporters belonging to the cation/proton antiporter gene family, with a conserved Na+ (K+)/H+ exchange (PF00999) protein domain. NHXs play a prominent role in plant growth, development, and defense. However, the role of NHX gene family in potato (Solanum tuberosum L.) is yet to be known. In this study, we conducted a genome-wide analysis of the potatoNHX gene family. A total of 25StNHX family memberswere identified to be unevenly distributed on 10 chromosomes. The proteins ranged in length from 252 to 1,153 amino acids, with molecular masses ranging from 27516.32 to 127860.87 kD, and isoelectric points (pI) ranging from 4.96 to 9.3. Analyses of gene structures and conserved motifs indicated that StNHX genes in the same phylogenetic cluster are conserved. Phylogenetic analysis divided the StNHX genes into three subfamilies (Classes I, II, and III). Synteny analysis indicated that StNHX gene family Class III of NHX and all Arabidopsis thaliana NHXs shared a close evolutionary relationship. Analysis of cisacting elements in the upstream 1,500 bp promoter region of potato NHX genes showed that these genes could be regulated by light, stress, and hormones such as abscisic acid and gibberellic acid. Protein-protein interaction network analysis indicated that StNHX proteins may participate in the regulation of potato growth and stress response. Besides, To determine a potential role of these genes in tissue development and drought response, we analyzed the RNA-seq data of different DM potato tissues. The results showed that NHX genes exhibited distinct tissue-specific expression patterns. We further examined the expression patterns of StNHX in different tissues (leaves, roots, shoots, tubers, stolons, and flowers) during the flowering stage in 'Jizhangshu NO.8.' potato. The qRT-PCR results further confirmed the importance of StNHX genes in potato plant growth and development. We further analyzed the RNA-seq data (DM potato) under different abiotic stresses (salt, drought, and heat), and found that the expression of StNHX genes was induced under abiotic stress. qRT-PCR analysis of shoots and roots of 'Jizhangshu NO.8.' potato treated for 0, 6, 12, and 24 hwith 15% PEG6000 confirmed that the 25 StNHX genes are involved in the response to drought stress in potato. The results of this study may be useful for selecting appropriate candidate genes for the breeding of new drought-tolerant potato varieties. Furthermore, this study lays a foundation for prospective analysis of StNHX gene functions. [ABSTRACT FROM AUTHOR]

Published

2024

45. Potato E3 ubiquitin ligase StRFP1 positively regulates late blight resistance by degrading sugar transporters StSWEET10c and StSWEET11.

Author

Wu, Xintong, Lin, Tianyu, Zhou, Xiaoshuang, Zhang, Wenjun, Liu, Shengxuan, Qiu, Huishan, Birch, Paul R. J., and Tian, Zhendong

Subjects

*UBIQUITIN ligases, *POTATOES, *FOOD crops, *PHYTOPHTHORA infestans, *NATURAL immunity, *ATP-binding cassette transporters, *SUGARS

Abstract

Summary: Potato (Solanum tuberosum) is the fourth largest food crop in the world. Late blight, caused by oomycete Phytophthora infestans, is the most devastating disease threatening potato production. Previous research has shown that StRFP1, a potato Arabidopsis Tóxicos en Levadura (ATL) family protein, positively regulates late blight resistance via its E3 ligase activity. However, the underlying mechanism is unknown.Here, we reveal that StRFP1 is associated with the plasma membrane (PM) and undergoes constitutive endocytic trafficking. Its PM localization is essential for inhibiting P. infestans colonization. Through in vivo and in vitro assays, we investigated that StRFP1 interacts with two sugar transporters StSWEET10c and StSWEET11 at the PM.Overexpression (OE) of StSWEET10c or StSWEET11 enhances P. infestans colonization. Both StSWEET10c and StSWEET11 exhibit sucrose transport ability in yeast, and OE of StSWEET10c leads to an increased sucrose content in the apoplastic fluid of potato leaves. StRFP1 ubiquitinates StSWEET10c and StSWEET11 to promote their degradation.We illustrate a novel mechanism by which a potato ATL protein enhances disease resistance by degrading susceptibility (S) factors, such as Sugars Will Eventually be Exported Transporters (SWEETs). This offers a potential strategy for improving disease resistance by utilizing host positive immune regulators to neutralize S factors. [ABSTRACT FROM AUTHOR]

Published

2024

46. Evaluating the Safety of Imidacloprid FS Seed Treatment Use in Potato Production: A Case Study from China.

Author

Kaium, Abdul, Wu, Chi, Man, Yanli, Liu, Xingang, Dong, Fengshou, and Zheng, Youngquan

Subjects

*SEED potatoes, *SEED treatment, *POTATO seeds, *POTATOES, *RISK assessment, *IMIDACLOPRID

Abstract

This study evaluated the residue behavior and dissipation dynamics of a new imidacloprid FS 600 seed treatment in potato cultivation systems in Shandong and Jilin, China. Sensitive and accurate UPLC-MS/MS methods were established to quantify imidacloprid residues in potatoes, potato plants, and soil. Results showed that imidacloprid dissipation followed a first-order kinetic model, with half-lives ranging from 6.9 to 26.7 days in plants and 19.8 to 28.9 days in soil. At harvest, the highest average residues in potatoes and soil were 0.778 mg/kg and 0.149 mg/kg, respectively. The dietary risk assessment indicated a chronic risk quotient (CRQ) of 39.73% for adults, indicating minimal risk to human consumers, while the ecological risk quotient (ERQ) and ecotoxicity exposure ratio (TER) revealed low to moderate toxicity to earthworms, warranting caution in the use of this formulation. This research provides valuable data for assessing the safety of imidacloprid FS seed treatment in potato cultivation. [ABSTRACT FROM AUTHOR]

Published

2024

47. Unveiling the frontiers of potato disease research through bibliometric analysis.

Author

Ling Weng, Zhurui Tang, Sardar, Muhammad Fahad, Ying Yu, Keyu Ai, Shurui Liang, Alkahtani, Jawaher, and Dianqiu Lyv

Subjects

BIBLIOMETRICS, POTATOES, CITATION analysis, INTERNATIONAL cooperation, BINDING sites

Abstract

Research on potato diseases had been widely reported, but a systematic review of potato diseases was lacking. Here, bibliometrics was used to systematically analyze the progress of potato disease. The publications related to "potato" and "disease" were searched in the Web of Science (WOS) from 2014 to 2023. The results showed that a total of 2095 publications on potato diseases were retrieved, with the annual publication output increasing year by year at a growth rate of 8.52%. The main countries where publications were issued were the United States, China, and India. There was relatively close cooperation observed between China, the United States, and the United Kingdom in terms of international collaboration, while international cooperation by India was less extensive. Based on citation analysis and trending topics, potential future research directions include nanoparticles, which provides highly effective carriers for biologically active substances due to their small dimensions, extensive surface area, and numerous binding sites; machine learning, which facilitates rapid identification of relevant targets in extensive datasets, thereby accelerating the process of disease diagnosis and fungicide innovation; and synthetic communities composed of various functional microorganisms, which demonstrate more stable effects in disease prevention and control. [ABSTRACT FROM AUTHOR]

Published

2024

48. A complex biostimulant based on plant flavonoids enhances potato growth and commercial yields.

Author

Salvage, Richard, Cannon, Tim, Kingsmill, Philip, Fuquan Liu, and Fleming, Colin C.

Subjects

SEED potatoes, SUSTAINABLE agriculture, FOOD supply, CROPS, POTATOES, FOOD security

Abstract

Introduction: Potatoes are one of the world's most important agricultural crops, with potential for making a major contribution to global food security. This study shows how a biostimulant derived from a plant extract can improve potato crop yield and global food supply. Successful potato production currently requires significant levels of inputs including fertiliser, pesticides and irrigation, however non-microbial plant biostimulants or mixtures of biostimulants with synergistic actions, have the capacity to reduce inputs and improve the sustainability of intensive agriculture. Methods: A complex biostimulant containing a number of flavonoids including protocatechuic acid, quercetin, chlorogenic acid, coumaroyl quinic acid and gentistic acid was tested against three potato varieties for its efficacy in improving plant growth characteristics and tuber production in controlled and field environments. Results: In containers, complex biostimulant treatment enhanced photosynthetic ability, with elevated levels of chlorophyll, higher specific leaf areas and significantly larger leaf assimilation areas. Treatment also significantly increased tuber yield by an average of 33% in tuber weight across three potato varieties and shifted tuber production toward larger sized tubers. The biostimulant derived from flavonoids was also assessed in 6 commercial potato crops and consistently increased total yield (average 5.2%) and marketable yield, representing an increase in margins of UK£700 per hectare across the 6 crops. Similar increases in yield were seen when comparing chitted and unchitted seed potatoes and both types of seed responded positively to biostimulant application. Biostimulant treatment had no significant effects on tuber specific gravity, dry matter percentage and starch content, except at one location where these quality characteristics were higher in the control plants. Conclusion: The flavonoid based complex biostimulant produced significant effects on potato yield and quality in both container experiments and in field trials indicating its potential for contributing to sustainable potato production. [ABSTRACT FROM AUTHOR]

Published

2024

49. Genome-wide characterization of the GRF transcription factors in potato (Solanum tuberosum L.) and expression analysis of StGRF genes during potato tuber dormancy and sprouting.

Author

Danni Cui, Yin Song, Weihao Jiang, Han Ye, Shipeng Wang, Li Yuan, and Bailin Liu

Subjects

POTATOES, GENE expression, TRANSCRIPTION factors, GERMINATION, TUBERS, PLANT growth, PLANT development

Abstract

Growth-regulating factors (GRFs) are transcription factors that play a pivotal role in plant growth and development. This study identifies 12 Solanum tuberosum GRF transcription factors (StGRFs) and analyzes their physicochemical properties, phylogenetic relationships, gene structures and gene expression patterns using bioinformatics. The StGRFs exhibit a length range of 266 to 599 amino acids, with a molecular weight of 26.02 to 64.52 kDa. The majority of StGRFs possess three introns. The promoter regions contain a plethora of cis-acting elements related to plant growth and development, as well as environmental stress and hormone response. All the members of the StGRF family contain conserved WRC and QLQ domains, with the sequences of these two conserved domain modules exhibiting high levels of conservation. Transcriptomic data indicates that StGRFs play a significant role in the growth and development of stamens, roots, young tubers, and other tissues or organs in potatoes. Furthermore, a few StGRFs exhibit differential expression patterns in response to Phytophthora infestans, chemical elicitors, heat, salt, and drought stresses, as well as multiple hormone treatments. The results of the expression analysis indicate that StGRF1, StGRF2, StGRF5, StGRF7, StGRF10 and StGRF12 are involved in the process of tuber sprouting, while StGRF4 and StGRF9 may play a role in tuber dormancy. These findings offer valuable insights that can be used to investigate the roles of StGRFs during potato tuber dormancy and sprouting. [ABSTRACT FROM AUTHOR]

Published

2024

50. Biocontrol potential of endophytic fungi against phytopathogenic nematodes on potato (Solanum tuberosum L.).

Author

Ghareeb, Rehab Y., Jaremko, Mariusz, Abdelsalam, Nader R., Abdelhamid, Mohamed M. A., EL-Argawy, Eman, and Ghozlan, Mahmoud H.

Subjects

*POTATOES, *PLANT nematodes, *PHYTOPATHOGENIC fungi, *ENDOPHYTIC fungi, *NEMATOCIDES, *ROOT-knot nematodes, *PEST control

Abstract

Root-knot nematodes (RKNs) are a vital pest that causes significant yield losses and economic damage to potato plants. The use of chemical pesticides to control these nematodes has led to environmental concerns and the development of resistance in the nematode populations. Endophytic fungi offer an eco-friendly alternative to control these pests and produce secondary metabolites that have nematicidal activity against RKNs. The objective of this study is to assess the efficacy of Aspergillus flavus (ON146363), an entophyte fungus isolated from Trigonella foenum-graecum seeds, against Meloidogyne incognita in filtered culture broth using GC–MS analysis. Among them, various nematicidal secondary metabolites were produced: Gadoleic acid, Oleic acid di-ethanolamide, Oleic acid, and Palmitic acid. In addition, biochemical compounds such as Gallic acid, Catechin, Protocatechuic acid, Esculatin, Vanillic acid, Pyrocatechol, Coumarine, Cinnamic acid, 4, 3-indol butyl acetic acid and Naphthyl acetic acid by HPLC. The fungus was identified through morphological and molecular analysis, including ITS 1–4 regions of ribosomal DNA. In vitro experiments showed that culture filtrate of A. flavus had a variable effect on reducing the number of egg hatchings and larval mortality, with higher concentrations showing greater efficacy than Abamectin. The fungus inhibited the development and multiplication of M. incognita in potato plants, reducing the number of galls and eggs by 90% and 89%, respectively. A. flavus increased the activity of defense-related enzymes Chitinas, Catalyse, and Peroxidase after 15, 45, and 60 days. Leaching of the concentrated culture significantly reduced the second juveniles' stage to 97% /250 g soil and decreased the penetration of nematodes into the roots. A. flavus cultural filtrates via soil spraying improved seedling growth and reduced nematode propagation, resulting in systemic resistance to nematode infection. Therefore, A. flavus can be an effective biological control agent for root-knot nematodes in potato plants. This approach provides a sustainable solution for farmers and minimizes the environmental impact. [ABSTRACT FROM AUTHOR]

Published

2024