期刊,Industrial Crops and Products 2022年176卷期_国家学术搜索

期刊信息/Journal information

Industrial Crops and Products

Elsevier Science Publishers

主办单位：Elsevier Science Publishers

国际刊号：0926-6690

Industrial Crops and Products/Journal Industrial Crops and ProductsSCIISTPEI

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Lignin nanoparticles for hydrogel-based pressure sensor

Han, XiaoZhang, YiqiRan, FangliLi, Chenyu...

9页

查看更多>>摘要：The preparation of high lignin content hydrogels with good mechanical and multifunctional properties remains a huge challenge. In this study, a novel polymer-nanoparticle hydrogel was developed by a covalent crosslinking strategy, which not only preserved the characteristics of nanoparticles but also gives them good mechanical properties. Herein, lignin-silver nanoparticles (Lig-Ag NPs) were prepared from industrial lignin starting material and crosslinked into hydrogel with poly(ethylene glycol) diglycidyl ether. The obtained hydrogel (Lig-Ag NPs/PEG, LANP) exhibited good mechanical properties (elongation at break 53%, tensile strength 94.67 kPa, toughness 277.32 kJ m(-3)), adhesiveness, conductivity, pressure-and pH-stimuli-responsiveness, which benefited from the appropriate degree of crosslink, the generated catechol groups and redox-active quinone/semiquinone free radicals from Lig-Ag NPs. These functional properties can also be tuned by the contents of Lig-Ag NPs. Based on the above properties, a LANP sensor was assembled and showed good application for pressure- and pH-monitoring. This work provides a green and facile strategy of lignin valorization towards new multi-functional and smart applications.

原文链接:

NSTL
Elsevier

Soxhlet, microwave-assisted, and room temperature liquid extraction of oil and bioactive compounds from palm kernel cake using isopropanol as solvent

Nuchdang, SasikarnPhruetthinan, NathanPaleeleam, PapichayaDomrongpokkaphan, Vichai...

8页

查看更多>>摘要：In this study, the extraction of oil and bioactive compounds from palm kernel cake (PKC), a byproduct of the palm oil mill, was investigated using Soxhlet extraction (SE), microwave-assisted extraction (MAE), and room temperature liquid extraction (RTLE) using isopropanol as a solvent. The advantages and disadvantages of each technique based on oil extraction yield, energy consumption, types and quantity of extracted bioactive compounds, and the characteristics of defatted PKC were compared. The results showed that when using an extraction temperature of 150 degrees C, SE provided the highest oil extraction yield of 12.64% w/w dry basis. When considering energy consumption, the RTLE required the lowest energy input of 0.14 kWh/g oil. The MAE yielded a comparable amount of extracted oil to that of SE (11.70%w/w dry basis), while requiring a moderate energy input of 1.52 kWh/g. Evidently, both the extraction method and solvent type influenced the fatty acid composition of the extracted oil. In addition to oil, the main compounds extracted from PKC using isopropanol were 3pyridinol and 5-hydroxymethylfurfural. Aromatic and phenolic compounds, including benzoic acid, 5-hydroxymethylfurfural, and 3-pyridinol, were detected in the oil-soluble components only when isopropanol was employed as the solvent, and the extraction temperature was >= 120 degrees C. In addition, the results showed that the extraction of oil from PKC produced defatted PKC, which may have a longer storage time than the untreated PKC and that can be a potential source of dietary fiber and protein for human consumption.

原文链接:

NSTL
Elsevier

Optimal light intensity and quality increased the saffron daughter corm yield by inhibiting the degradation of reserves in mother corms during the reproductive stage

Zhou, TaoQiu, XueZhao, LiYang, Weijing...

14页

查看更多>>摘要：Saffron (Crocus sativus L.) two-segment (TS) cropping system, with mother corms flowering in a controlled environment first and then growing daughter corms in the field, can greatly increase stigma yield and quality, but may decrease daughter corm yield (mainly due to depletion of nutrient reserves in mother corms). Light plays crucial roles in regulation of nutrient reserve metabolism in tubers, corms, and other storage organs. However, how the metabolism of mother corm reserves, which determines the daughter corm yield, responds to light intensity and quality during the reproductive stage remains unclear. Plants grew under five light intensities (56, 200, 400, 600, and 800 mu mol m(-2) s(-1)) and three combinations of red (R) to blue (B) light (4R1B, 3R1B, and 3R2B) at 200 mu mol m(-2) s(-1) during the reproductive stage. After flowering, the plants were transplanted to the field. Leaf growth, net photosynthesis, carbohydrate and nutrient content, stigma yield and quality, and daughter corm yield were assessed. The stigma yield and quality decreased with increasing light intensity, whereas the carbohydrate and total N, P, and K content in the mother corm showed the opposite trend. The light treatment of 200(3R2B) not only maintained the stigma yield (up to 482.4 mg (10 corms)(-1)) at a highest level, but also improved the apocarotenoid content (up to 33.6%) in stigma, and carbohydrate and nutrient content in mother corm. Compared with 56 mu mol m(-2) s(-1), light 200 (3R2B) decreased the length and weight of leaves, ratio of leaf to corm weight, and starch and nutrient decomposition in corms, but increased the rate of photomorphogenesis, stomatal opening, chlorophyll concentration (up to 72.9%), net photosynthesis (up to 448.6%), and leaf sucrose concentration (up to 156.7%). A decreased demand for leaf development and increased carbon capture inhibited the decomposition of carbohydrates and nutrients in the mother corm. The high sucrose concentration in leaves served not only as a carbon substrate for leaf growth, but also as a signal for inhibiting the translocation of carbon from corm to leaves and then the decomposition of starch in corm. The increased reserves in mother corms and improved stomatal opening combined to result in large leaf area, well-developed vascular tissue, and then high rate of leaf photosynthesis in the field, which provided assimilates for achieving yield potential and a high proportion of large-size corms. This is the first report on optimizing light intensity and quality during the reproductive stage to partially eliminate daughter corm yield decreases in the TS cropping system. Furthermore, this work also contributed to understanding the metabolism of nutrient reserves and leaf growth in saffron as regulated by light intensity and quality.

原文链接:

NSTL
Elsevier

One-pot method to prepare lignin-based magnetic biosorbents for bioadsorption of heavy metal ions

Tan, LipingZhang, YongchaoZhang, WeihuaZhao, Rongwen...

10页

查看更多>>摘要：Valorization of lignin is imperative since lignin is still an underutilized biomaterial. Herein, a facile fabrication method for lignin-based magnetic biosorbent (LMB) is proposed via assembling magnetic inorganic particles (Fe3O4) on lignin in-situ for eliminating heavy metal ions (HMIs) from wastewater without the utilization of organic solvents. Chemical and structural characterizations, which were determined by different analytical tools, including Fourier transform infrared (FTIR), Scanning electron microscope (SEM), X-ray diffraction (XRD), Highresolution transmission electron microscopy (HRTEM), and X-ray photoelectron spectroscopy (XPS) confirmed that LMB was successfully formed via the feasible and green process. Then, LMB was found to exhibit highly effective removal performance for HMIs. The adsorption capacity of the LMB reached 152.58 mg/g for Pb2+ and 46.81 mg/g for Cu2+, with equilibrium attained within 30 min. Adsorption kinetics and isothermal adsorption of lead and copper ions by LMB were also examined. This study delivers a new perspective on lignin valorization for lignocellulose biorefineries and establishes a path for synthesizing a cost-efficient and green adsorbent for removing HMIs from wastewater.

原文链接:

NSTL
Elsevier

TiO2/nanocellulose hybrids as functional additives for advanced polypropylene nanocomposites

Zielinska, DariaSiwinska-Ciesielczyk, KatarzynaBula, KarolJesionowski, Teofil...

17页

查看更多>>摘要：Polymer composite materials with renewable fillers offering multiple functions, including good mechanical, photocatalytic and antibacterial properties, increased temperature and UV resistance, and enhanced gas barrier properties, are urgently needed in packaging production. The present research concerns a simple and inexpensive mechanochemical fabrication of TiO2/nanocellulose hybrids, where nanocellulose was obtained by enzymatic reactions. The effect of the weight ratio of components (TiO2 and nanocellulose) on the physicochemical and functional properties of the final products was examined. The obtained TiO2/nanocellulose hybrids were tested to determine dispersion, morphological and thermal properties. Composites of polypropylene with TiO2/nanocellulose hybrids were produced by a two-stage extrusion process. These composite materials, not previously reported in the literature, were subjected to detailed structural research using the X-ray diffraction method, analysis of phase transition using differential scanning calorimetry, analysis of nucleation and crystallization processes, as well as testing of mechanical properties. The composites with hybrid fillers produced very high values of tensile strength (approx. 55 MPa) and higher values of Young's modulus (approx. 1700-1800 MPa). Moreover, these unique composites with TiO2/nanocellulose fillers also exhibited very good nucleating properties, including an increase in the crystallization temperature by 5-8 degrees C, a reduction of half-times of crystallization by approx. 40%, and high nucleation activity and thermal resistance. It was proven that all of the listed important properties of the composite materials strictly depend on the polymorphic structure, chemical composition, and dispersion and morphological properties of TiO2/nanocellulose hybrid fillers. In this work we describe for the first time a method of obtaining innovative polymer composites with TiO2/nanocellulose hybrid fillers, exhibiting properties that indicate a huge potential for application in many industries.

原文链接:

NSTL
Elsevier

Ecological modelling of potential Isparta Rosa areas (Rosa damascena Mill.)

Ersan, RabiaBasayigit, Levent

10页

查看更多>>摘要：Rosa damascena is widely used in the perfume, cosmetics, food, and medicine industrie around the world. Especially in the last two years, the use of drugs containing Rosa damascena has been emphasized in the treatment of Covid19 patients. In order to ensure the sustainability of these studies and to get to know Rosa damascena better, first of all, the ecological demands of Rosa damascena should be determined, and to expand the production area together with planning studies. In this study, the necessary ecological criteria (soil, climate, topography) for Isparta rosa growing were determined. An ecological modeling of potential agricultural areas suitable for Isparta rosa cultivation was made using Analytical Hierarchy Process (AHP) and Remote Sensing-Geographic Information Systems (RS-GIS), Potential Isparta rosa production areas were determined spatially. With this study, it was determined that 105,637 ha (12.12%) of Isparta's land was classified as "very suitable" for rose cultivation, but rose cultivation was carried out on an area of only 2,975 ha. Physical assessment was revealed that the areas suitable for Isparta rose cultivation were significantly restricted by the socio-economic structure of the province.

原文链接:

NSTL
Elsevier

Single dose fertilization at reduced nitrogen rate improves nitrogen utilization without yield reduction in late-planted cotton under a wheat-cotton cropping system

Yang, GuozhengDong, HezhongLiu, AndaMa, Xiaolei...

15页

查看更多>>摘要：Planting cotton after harvest of winter wheat may be an alternative to relay intercropping that reduces labor and material inputs under a double cropping system of wheat-cotton in China. However, it is unclear whether lint yield with single dose application of reduced N at early flowering will increase N use efficiency without lint yield reduction in such a system. In a two-year field study, cotton was directly sown after wheat harvest on 20 May and fertilized one time at early flowering with 0 (N0), 90 (N90), 180 (N180), 270 (N270), or 360 (N360) kg N ha(-1). Cotton yield, biomass accumulation and partitioning, N uptake and use efficiency, critical N dilution curve, and physiological parameters related to N metabolism were determined. In the two experimental years, N180 did not differ from N270 and N360 in seed cotton yield but was 55.4% higher than N0 and 11.5% higher than N90. N180 was considerably higher than N0 and N90 in biomass but was comparable with N270 and N360 after peak blooming. By contrast, the harvest index in N180 was comparable with or slightly lower than that in N0 and N90 but was considerably higher than that in N270 and N360. Compared with lower N rates, the increase in biomass in N180 was attributed to the increased duration or rate of biomass accumulation in the rapid accumulation period of biomass. Compared with higher N rates, the increase in harvest index in N180 was largely due to increased partitioning of assimilates to fruiting sites. Total N content in source, flow, and sink organs increased with the increase in N fertilizer rate. Critical N dilution curves showed that the N nutrition index of sink organs (NNIso) increased with the increase in N fertilizer rate. The NNIso in N180 was closer to 1 than the index in the other N rate treatments and therefore should be the optimal N rate in this system. The N use efficiency (NUE) in N180 was similar to or slightly lower than that in N90 but was considerably higher than that in N270 and N360. Nitrate-N and soluble protein contents in petioles or leaves in N180 were comparable with those in N270 and N360 but were much higher than those in N0 and N90, which was consistent with the seed cotton yields under the different N rates. Overall, N fertilization rate can effectively regulate N metabolism, NUE, biomass accumulation and distribution, and seed cotton yield and yield components. Thus, to optimize yield, NUE, and NNIso, 180 kg N ha(-1) applied at early flowering is recommended compared with other N rates in wheat-cotton double cropping systems.

原文链接:

NSTL
Elsevier

Harvest attributes and seed quality predict physiological maturity of pennycress

Cubins, Julija A.Wells, Samantha S.Walia, Maninder K.Wyse, Donald L....

12页

查看更多>>摘要：In the Upper Midwest, corn (Zea mays L.) and soybean (Glycine max [L.] Merr.) dominate the landscape, but only for six to seven months of the year. Thus, opportunities exist to establish crops that can utilize the remainder of the growing season and contribute to overall farm profitability. One species of interest is pennycress (Thlaspi arvense L.), but a lack of established agronomic best management practices is a barrier to successful crop production. The objectives of this study were to identify a range of cumulative growing degree days (CGDD) corresponding to pennycress physiological maturity, determine the optimal harvest window that maximizes pennycress seed yield and oil content, and characterize changes in pennycress seed attributes over seed maturation. This study was conducted over the 2016-2017 and 2017-2018 growing seasons with 'MN106' pennycress at two locations in Minnesota, USA. Seed dry weight stabilized within the window of maximum seed yield, but oil content did not maximize until after this period. However, there was minimal loss of oil content when pennycress was harvested within the seed yield maximization window. Based on these parameters, as well as seed moisture, it was estimated that pennycress reached physiological maturity between 2230 and 2250 degrees C d CGDD, or about a week prior to harvest maturity in terms of crop phenology. Delaying harvest to harvest maturity resulted in a 26% loss in harvestable seed due to seed shatter compared with the average maximum seed yield of 928 kg ha-1. Ensuring maximum pennycress seed yield and oil content at harvest is imperative to successful production and contribution to farm economic viability.

原文链接:

NSTL
Elsevier

High recycling performance of holocellulose paper made from sisal fibers

Qin, ShaoliuChen, YianTao, ShenmingZhang, Cunzhi...

7页

查看更多>>摘要：The pulp and paper industry growingly paid attention to the recycling and maintenance of waste paper products. Each paper-making cycle would lead to a sharp drop in the mechanical properties of the cellulosic paper, which was related to the hornification effect. Here, the recycling performance of the holocellulose paper was studied, compared with that of the cellulosic paper. Holocellulose fibers from sisal were fabricated by a gentle delignification method, and the well-preserved cellulose and hemicellulose components hindered the cocrystallization and aggregation of cellulose fibril. Holocellulose paper exhibited much more favorable recycling properties, compared with cellulosic paper. After 5 runs of recycling, holocellulose paper still shown an ultimate strength as high as 25 MPa (reduced from 35 MPa), a decrease of 28.6%. However, cellulosic paper experienced a substantial loss in ultimate strength from 35 MPa to 9 MPa, a decrease of about 74.3%. This can be attributed to the coreshell structure from cellulose and hemicellulose to weaken the hornification effect.

原文链接:

NSTL
Elsevier

Tuning hydrothermal pretreatment severity of wheat straw to match energy application scenarios

He, ChenjunHu, JinguangShen, FeiHuang, Mei...

10页

查看更多>>摘要：Wheat straw was hydrothermally pretreated over a broad severity range (90-300 degrees C) to comparatively assess its suitability for energy application scenarios. Although the substrate was not completely deconstructed at the rather low temperature of 120 degrees C, the biomethane yield through whole slurry anaerobic digestion was 32% higher than that of unpretreated wheat straw. It was proposed that an increasing amount of soluble fractions was released at higher pretreatment temperatures, which consequently limited anaerobic digestion through the acidification or inhibition mechanism; therefore a lower biomethane yield was obtained. In contrast to the profile of anaerobic digestion, increasing the pretreatment temperature significantly facilitated bioethanol production through simultaneous saccharification and fermentation (SSF). When the hydrothermal pretreatment was performed at 210 degrees C, the ethanol yield was 229.5% higher than that of the untreated wheat straw. The possible reason was that at higher temperatures, the recalcitrant fraction of hemicellulose tended to solubilize through auto acid-catalyzed hydrolysis, which enhanced the accessibility of cellulose to cellulase enzymes. At very high hydrothermal temperatures (>240 degrees C), the pretreated substrates were not suitable for biological conversion but were well suited for production of carbons with an ultra-high surface area. In conclusion, lower pretreatment temperatures are recommended for anaerobic digestion, moderate temperatures for SSF, and high temperatures for non-biological conversion to produce supercapacitor carbon electrodes.

原文链接:

NSTL
Elsevier