In order to assess the potential of the medium-range weather forecast in predicting the cotton productivity using crop simulation model, the CROPGRO-cotton model was calibrated and validated with the ...experimental data which was collected during kharif 2021 in an experiment that was carried out with two Bt cotton hybrid (RCH 776 and RCH 773) and one non-Bt (F2228), and sown at five dates i.e., April 25th, May 05th, May 15th, May 25th and June 04th in split-plot design with three replications at Punjab Agricultural University (PAU) Regional Research Station, Bathinda. The validated model was further used to assess the cotton productivity under different sowing dates using medium range weather forecast data on rainfall, maximum temperature and minimum temperature obtained for the period 2013-2021. The results showed that simulated values with medium range weather forecast were in close agreement with the simulated values for phenology and yield of cotton. The simulated cotton yield using daily medium range weather forecast data showed more or less significant efficiency to capture year-to-year as well as datewise variability in simulated cotton yield.
Summary
Functional genomics has transformed from futuristic concept to well‐established scientific discipline during the last decade. Cotton functional genomics promise to enhance the understanding ...of fundamental plant biology to systematically exploit genetic resources for the improvement of cotton fibre quality and yield, as well as utilization of genetic information for germplasm improvement. However, determining the cotton gene functions is a much more challenging task, which has not progressed at a rapid pace. This article presents a comprehensive overview of the recent tools and resources available with the major advances in cotton functional genomics to develop elite cotton genotypes. This effort ultimately helps to filter a subset of genes that can be used to assemble a final list of candidate genes that could be employed in future novel cotton breeding programme. We argue that next stage of cotton functional genomics requires the draft genomes refinement, re‐sequencing broad diversity panels with the development of high‐throughput functional genomics tools and integrating multidisciplinary approaches in upcoming cotton improvement programmes.
The number of cotton (Gossypium sp.) ovule epidermal cells differentiating into fiber initials is an important factor affecting cotton yield and fiber quality. Despite extensive efforts in ...determining the molecular mechanisms regulating fiber initial differentiation, only a few genes responsible for fiber initial differentiation have been discovered. To identify putative genes directly involved in the fiber initiation process, we used a cotton ovule culture technique that controls the timing of fiber initial differentiation by exogenous phytohormone application in combination with comparative expression analyses between wild type and three fiberless mutants. The addition of exogenous auxin and gibberellins to pre-anthesis wild type ovules that did not have visible fiber initials increased the expression of genes affecting auxin, ethylene, ABA and jasmonic acid signaling pathways within 1 h after treatment. Most transcripts expressed differentially by the phytohormone treatment in vitro were also differentially expressed in the ovules of wild type and fiberless mutants that were grown in planta. In addition to MYB25-like, a gene that was previously shown to be associated with the differentiation of fiber initials, several other differentially expressed genes, including auxin/indole-3-acetic acid (AUX/IAA) involved in auxin signaling, ACC oxidase involved in ethylene biosynthesis, and abscisic acid (ABA) 8'-hydroxylase an enzyme that controls the rate of ABA catabolism, were co-regulated in the pre-anthesis ovules of both wild type and fiberless mutants. These results support the hypothesis that phytohormonal signaling networks regulate the temporal expression of genes responsible for differentiation of cotton fiber initials in vitro and in planta.
Celotno besedilo
Dostopno za:
DOBA, IZUM, KILJ, NUK, PILJ, PNG, SAZU, SIK, UILJ, UKNU, UL, UM, UPUK
Upland cotton (Gossypium hirsutum) is the most important natural fiber crop in the world. The overall genetic diversity among cultivated species of cotton and the genetic changes that occurred during ...their improvement are poorly understood. Here we report a comprehensive genomic assessment of modern improved upland cotton based on the genome-wide resequencing of 318 landraces and modern improved cultivars or lines. We detected more associated loci for lint yield than for fiber quality, which suggests that lint yield has stronger selection signatures than other traits. We found that two ethylene-pathway-related genes were associated with increased lint yield in improved cultivars. We evaluated the population frequency of each elite allele in historically released cultivar groups and found that 54.8% of the elite genome-wide association study (GWAS) alleles detected were transferred from three founder landraces: Deltapine 15, Stoneville 2B and Uganda Mian. Our results provide a genomic basis for improving cotton cultivars and for further evolutionary analysis of polyploid crops.
In her incisive analysis of the shaping of California's agricultural work force, Devra Weber shows how the cultural background of Mexican and, later, Anglo-American workers, combined with the ...structure of capitalist cotton production and New Deal politics, forging a new form of labor relations. She pays particular attention to Mexican field workers and their organized struggles, including the famous strikes of 1933.
Weber's perceptive examination of the relationships between economic structure, human agency, and the state, as well as her discussions of the crucial role of women in both Mexican and Anglo working-class life, make her book a valuable contribution to labor, agriculture, Chicano, Mexican, and California history.
Despite the rapid adoption of genetically modified (GM) crops by farmers in many countries, controversies about this technology continue. Uncertainty about GM crop impacts is one reason for ...widespread public suspicion.
We carry out a meta-analysis of the agronomic and economic impacts of GM crops to consolidate the evidence.
Original studies for inclusion were identified through keyword searches in ISI Web of Knowledge, Google Scholar, EconLit, and AgEcon Search.
Studies were included when they build on primary data from farm surveys or field trials anywhere in the world, and when they report impacts of GM soybean, maize, or cotton on crop yields, pesticide use, and/or farmer profits. In total, 147 original studies were included.
Analysis of mean impacts and meta-regressions to examine factors that influence outcomes.
On average, GM technology adoption has reduced chemical pesticide use by 37%, increased crop yields by 22%, and increased farmer profits by 68%. Yield gains and pesticide reductions are larger for insect-resistant crops than for herbicide-tolerant crops. Yield and profit gains are higher in developing countries than in developed countries.
Several of the original studies did not report sample sizes and measures of variance.
The meta-analysis reveals robust evidence of GM crop benefits for farmers in developed and developing countries. Such evidence may help to gradually increase public trust in this technology.
Celotno besedilo
Dostopno za:
DOBA, IZUM, KILJ, NUK, PILJ, PNG, SAZU, SIK, UILJ, UKNU, UL, UM, UPUK
Chitosan is an environmentally friendly agent that is used to achieve the antimicrobial properties of textiles. Nowadays, the binding of chitosan to the textiles has been thoroughly researched due to ...the increasing demands on the stability of achieved properties during the textile care processes. Most crosslinking agents for chitosan are not safe for humans or environment, such as glutaric aldehyde (GA) and formaldehyde derivatives. Eco-friendly polycarboxyilic acids (PCAs) are usually used in after-treatment. In this work, chitosan powder was dissolved in citric acid with sodium hydrophosphite (SHP) as a catalyst. Standard cotton (CO) and polyester/cotton (PES/CO) fabrics were pretreated in 20% NaOH, similar to mercerization, in order to open the structure of the cotton fibers and hydrolyze polyester fibers, continued by finishing in the gelatin chitosan bath. Afterwards, the hot rinsing process, followed by drying and curing, closed the achieved structure. The main objective was to achieve durable antimicrobial properties to multiple maintenance cycles CO and PES/CO fabric in order to apply it in a hospital environment. The characterization of fabrics was performed after treatment, first and fifth washing cycles according ISO 6330:2012 by field emission scanning electron microscopy (FE-SEM), Fourier transform infrared spectroscopy (FTIR-ATR), electrokinetic analysis (EKA), by the determination of tensile properties and mechanical damage (wear), and the antimicrobial activity. The application of 20% NaOH led to the swelling and mercerization of cotton cellulose, and hydrolysis of polyester, resulting in better mechanical properties. It has been confirmed that the chitosan particles were well implemented into the cotton fiber and onto to the polyester component of PES/CO blend. The presence of chitosan was confirmed after five washing cycles, but in lower quantity. However, achieved antimicrobial activity is persistent.
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•Cotton gin trash catalyst is effective in the dehydration of fructose to HMF.•Cotton gin trash catalyst consists of 3 aromatic layers, –COOH and –SO3H groups.•The reusability of ...cotton gin trash derived catalyst is >5 times.•Fructose was transformed via a carbaldehyde intermediate prior to dehydration.•Adsorption mechanism of catalyst goes by liquid film and intra-particle diffusions.
Biomass-derived carbon catalysts have been extensively studied for the dehydration of sugars to platform chemical 5-hydroxymethyl furfural (HMF), which can be used to produce valuable chemicals and fuels. However, only limited studies have been conducted to determine their carbon molecular structures and how these influence the conversion process. Here, we prepare a chlorosulfonated carbon catalyst derived from cotton gin trash (CGT) at 400 °C for the dehydration of fructose to produce 5-hydroxymethyl furfural (HMF) in the ionic liquid, 1-butyl-3-methyl-imidazolium chloride (BMIMCl). The highly efficient chlorosulfonated carbon catalyst consisting of 3 aromatic layers of furanic, phenolic rings and aliphatic–aromatic carbon structures with –COOH, phenolic OH, -SO3-, and -SO3H functional groups were found to have a similar performance as the commercial catalyst, Amberlyst-15. The carbon material was reused 5 times without loss of catalytic activity. The formation of the sugar intermediate, 3,4-dihydroxy-5-hydroxymethyl-tetrahydrofuran-2-carbaldehyde may be related to –COOH and phenolic OH groups forming hydrogen bonds with fructose, and the adsorption of fructose onto the graphitized sp2 internal carbon regions where interactions with the defects in the carbon material occur.
SUMMARY
Xyloglucan, an important hemicellulose, plays a crucial role in maintaining cell wall structure and cell elongation. However, the effects of xyloglucan on cotton fiber development are not ...well understood. GhMUR3 encodes a xyloglucan galactosyltransferase that is essential for xyloglucan synthesis and is highly expressed during fiber elongation. In this study, we report that GhMUR3 participates in cotton fiber development under the regulation of GhMYB30. Overexpression GhMUR3 affects the fiber elongation and cell wall thickening. Transcriptome showed that the expression of genes involved in secondary cell wall synthesis was prematurely activated in OE‐MUR3 lines. In addition, GhMYB30 was identified as a key regulator of GhMUR3 by Y1H, Dual‐Luc, and electrophoretic mobility shift assay (EMSA) assays. GhMYB30 directly bound the GhMUR3 promoter and activated GhMUR3 expression. Furthermore, DAP‐seq of GhMYB30 was performed to identify its target genes in the whole genome. The results showed that many target genes were associated with fiber development, including cell wall synthesis‐related genes, BR‐related genes, reactive oxygen species pathway genes, and VLCFA synthesis genes. It was demonstrated that GhMYB30 may regulate fiber development through multiple pathways. Additionally, GhMYB46 was confirmed to be a target gene of GhMYB30 by EMSA, and GhMYB46 was significantly increased in GhMYB30‐silenced lines, indicating that GhMYB30 inhibited GhMYB46 expression. Overall, these results revealed that GhMUR3 under the regulation of GhMYB30 and plays an essential role in cotton fiber elongation and secondary wall thickening. Additionally, GhMYB30 plays an important role in the regulation of fiber development and regulates fiber secondary wall synthesis by inhibiting the expression of GhMYB46.
Significance Statement
In this study, GhMUR3 was identified and cloned in Gossypium hirsutum, confirming that it affects fiber elongation and secondary wall thickening and plays an important role in fiber development. In addition, GhMYB30 was screened as an upstream transcription factor to directly regulate GhMUR3 expression. Combined with the results of DAP‐seq, the possibility of GhMYB30 affecting fiber development through multiple pathways was expounded. This study will provide a new research direction for improving the quality of cotton fiber.
Cotton gin trash (CGT), an agro-industrial waste material produced during the ginning operation of cotton fibre, is a sustainable source of material to fabricate biodegradable polymer. Earlier ...research conducted on the preparation of polymer from different fractions of cotton trash such as linters, burrs and seed hulls cannot be pursued, as physical separation of these individual parts is quite difficult and impractical; the linters entangling all fractions. In our current study, we have used the whole cotton gin trash to fabricate films using formic acid (FA) with different CGT/FA weight ratios (0.5/99.5, 1/99, 3/97, 5/95 and 7/93) in a one-step process. Further, we investigated the structural changes, crystallinity, thermal property, tensile characteristics, wettability and biodegradability of the CGT films. The crystallinity of the films increased with increasing proportion of formic acid. The films were thermally stable up to 200 °C without any glass transition point. The tensile strength of the films was comparable to commercial low density polyethylene. The films produced in this study were found to be biodegradable. Therefore, the overall results have well exposed the CGT as a potential sustainable source for material production.
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•Fabrication of biodegradable film from whole cotton gin trash, as a biomass waste.•Crystallinity of the film enhanced with the higher proportion of formic acid in fabrication process.•Fabricated film showed comparable tensile strength to commercial low density polyethylene.