Cadmium(Cd)is a toxic trace metal that occurs naturally in agricultural soils and can accumulate in the edible parts of crops,notably in cereal grains.This study investigated the extent to which sulfur(S)fertilization...Cadmium(Cd)is a toxic trace metal that occurs naturally in agricultural soils and can accumulate in the edible parts of crops,notably in cereal grains.This study investigated the extent to which sulfur(S)fertilization increases the availability of Cd in a calcareous(Calc)and a non-calcareous(Ncalc)soil.Changes in Cd availability and speciation were monitored over a 21-d incubation period,along with changes in pH and the concentrations of sulfate,nitrate,calcium,magnesium,aluminum(Al),manganese(Mn),and nickel(Ni)in the potassium nitrate(KNO_(3))extracts,after the addition at agronomic rates of three forms of S fertilizers:elemental S(S(0)),potassium sulfate(K_(2)SO_(4)),and ammonium sulfate((NH_(4))_(2)SO_(4)).Elemental S did not increase the Cd concentration in the KNO_(3)extracts of either soil due to its too limited oxidation to sulfates.The two sulfate fertilizers had contrasting effects on Cd concentration depending on the nature of the counter cation(K^(+)or NH_(4)^(+)).While K_(2)SO_(4)caused almost no change in Cd concentration in either soil,(NH_(4))_(2)SO_(4)increased Cd concentration in both soils.The nitrification of NH_(4)^(+)reduced soil pH,thereby increasing the concentrations of Cd,Al,Mn,and Ni in the Ncalc soil over time,as evidenced by the strong negative correlations between soil pH and the concentrations of these four elements in the KNO3 extract after 21 d.In the Calc soil,the mechanism of Cd concentration increase after(NH_(4))_(2)SO_(4)addition was more difficult to understand and could result from the proton-mediated alteration of Cd-bearing phases such as carbonates,following ammonia(NH_(3))volatilization.The relevance of these results for the S fertilization of cereals in Cd-contaminated soils is discussed.展开更多
Fusarium graminearum is the causal agent of Gibberella ear rot(GER)in maize,a devastating fungal disease leading to yield reduction and contamination of grains with type B trichothecene mycotoxins(TCTB).Reducing GER d...Fusarium graminearum is the causal agent of Gibberella ear rot(GER)in maize,a devastating fungal disease leading to yield reduction and contamination of grains with type B trichothecene mycotoxins(TCTB).Reducing GER damage requires the implementation of an integrated strategy in which the use of resistant maize genotypes is a key pillar.F.graminearum infects maize ears most often by the silk channel,which represents the first plant tissue encountered by the pathogen.The present study aimed at providing new phenotyping tools to improve breeding pipelines by investing the importance of maize silk composition in GER resistance.Here we used targeted and untargeted metabolomics approaches to characterize differences between genotypes reported as susceptible or tolerant to GER.Promising results were obtained with the LC-HRMS/MS analysis that led to outline 25 m/z signals,among which 14 were assigned to a unique compound,that could distinguish tolerant and susceptible genotypes.We notably evidenced that a metabolite putatively identified as feruloyl-hexose could contribute to GER tolerance,while two others putatively identified compounds(chlorogenic acid and eupatilin)could be susceptibility-associated biomarkers.The present study paves the avenue for the use of new approaches based on silk composition to improve the breeding programs aiming at increasing maize resistance.展开更多
Tannins are polyphenols widely present in the plant kingdom,commonly divided into two groups:condensed and hydrolysable tannins.Sustainable furanic bio-foams based on condensed tannins have been largely studied,but li...Tannins are polyphenols widely present in the plant kingdom,commonly divided into two groups:condensed and hydrolysable tannins.Sustainable furanic bio-foams based on condensed tannins have been largely studied,but little is described about the use of hydrolysable tannins for this material.This study examined the potential of hydrolysable chestnut tannin in comparison to condensed mimosa tannins to produce furanic foams by chemical expansion.Due to the low reactivity of the hydrolysable tannin,the use of an external source for its polymerization and curing was necessary.Through Fourier transform infrared spectroscopy(FTIR)chromatography,it was possible to observe that the new foams presented small differences in functional groups compared to the condensed tannin foams,presenting peaks related to carboxyl groups.In terms of physical properties,the chestnut foams showed an apparent density 36%higher than the conventional mimosa tannin foams and a superior hydrophilic character.In terms of thermal properties,both foams exhibit high thermal stability,with the acacia tannin foam being slightly superior.In summary,this research paves the way for new applications of hydrolysable tannins in bio-foams and materials science.展开更多
The valorization of Amazonian wood residues into active chemical compounds could be an eco-friendly,cost-effective and valuable way to develop wood preservative formulations to enhance the decay and termite resistance...The valorization of Amazonian wood residues into active chemical compounds could be an eco-friendly,cost-effective and valuable way to develop wood preservative formulations to enhance the decay and termite resistance of low-durable wood species.Wacapou(Vouacapoua americana.,Fabaceae)is a well-known Guianese wood spe-cies commonly used in local wood construction due to its outstanding natural durability,which results from the presence of a large panel of extractives compounds.In addition,its industrial processing generates large amounts of residues.Wacapou residues were extracted by maceration using four different solvents(water/ethanol,ethyl acetate,hexane and dichloromethane/methanol),separately and successively.The yield of each extractive fraction was determined,and their chemical compositions were analyzed by Liquid Chromatography-Mass Spectrometry(LC-MS).Ethyl acetate led to the highest extraction yield,and the active compounds were identified in the obtained extractive fraction.In this sense,the fungicidal and termite-repellent properties of these extractives were then tested using a screening laboratory(with temperate and tropical microorganisms),according to the solution concentration(1%,2.5%,5%,8%and 10%).Finally,Virola michelii Heckel wood samples(low durable species)were impregnated with the 8%concentration solution.The impregnated wood samples were then exposed to a soil bed test.The results highlighted that the nature of the solvent used during wood maceration affects the con-tent of the obtained extractive fractions.Ultra-Performance Liquid Chromatography–High-Resolution Mass Spectrometry(UHPLC-HRMS)analyses showed the influence of extraction parameters on the nature of the extracted molecules.Wacapou extracts(from ethyl acetate maceration)showed good anti-fungal and anti-termite activities.Additionally,the concentration in extractives had an impact on the anti-termite activity level for Reti-culitermesflavipes and Cryptotermes sp.Formulations based on Wacapou extractives showed a good potential for valorization in eco-friendly preservatives,aiming to confer better durability to local low-durability wood species.展开更多
Bio-based thermoplastic film from flax fiber and fatty acid(FA)was obtained using trifluoroacetic anhydride(TFAA)as an impelling agent.Different quantities of TFAA/FA,size of flax fiber,and fatty acids were applied to...Bio-based thermoplastic film from flax fiber and fatty acid(FA)was obtained using trifluoroacetic anhydride(TFAA)as an impelling agent.Different quantities of TFAA/FA,size of flax fiber,and fatty acids were applied to investigate chemical structure in relation to the mechanical properties.Decreasing the quantity of TFAA/FA by almost half from 1:4 to 1:2.5(flax to TFAA/FA)only reduces by 22%the weight percent gain(WPG)and ester content and reducing flax fiber size slightly increases the WPG and ester content.All the treatments showed sig-nificant chemical structure modification,observed by FTIR and solid CP/MAS^(13)C NMR,confirming the presence of carbonyl ester groups and alkyl chains,in relatively similar intensities.The crystallinity index(CrI)of esterified flax was evaluated by comparing the signal of solid CP/MAS^(13)C NMR in crystalline and amorphous regions and CrI was higher in esterified flax using a lower quantity of reagent and longer fatty acid.Esterified flax in a high quantity of reagent showed ductile or flexible behavior.Decreasing the reagent to 1:2.5 significantly increases the tensile strength and Young’s modulus,and decreases the elongation at break,presenting more brittle and stiff material.Using flax fiber in the original size results in slightly higher tensile strength and Young’s modulus and slightly lower elongation than milled flax.The tensile strength and Young’s modulus of stearic acid esterified flax obtained in this research were higher than myristic acid and comparable to the polyethylene plastics-LDPE and HDPE.展开更多
Background Insect meals have been identified as innovative and sustainable feedstuffs that could be used in ruminant nutrition.However,current research on the effects that their processing may have on rumen digestibil...Background Insect meals have been identified as innovative and sustainable feedstuffs that could be used in ruminant nutrition.However,current research on the effects that their processing may have on rumen digestibility and fatty acid(FA)biohydrogenation is scant.This trial aims to investigate the effects(i)of drying temperature of fullfat Hermetia illucens(HI)and Tenebrio molitor(TM)meals,and(ii)of residual ether extract(EE)content of defatted HI and TM meals,on their fermentation characteristics and FA of rumen digesta after 24-h in vitro rumen incubation.Methods The tested full-fat meals included four HI and four TM meals obtained applying drying temperatures ranging from 30℃ to 70℃,while the tested defatted meals consisted of five HI and two TM meals containing a residual EE content ranging from 4.7 to 19.7 g EE/100 g dry matter(DM).The applied statistical models(GLM ANOVA)tested the effects of insect species,drying temperature(full-fat meals)or EE content(defatted meals),and their interaction.Results Drying temperature had minor effects on in vitro ruminal digestibility and FA profile of rumen digesta.Irrespective of insect species,increasing the drying temperature led to a reduction of in vitro degradation of proteins from insect meals,as outlined by the significant decrease in ammonia production(-0.009 mmol/g DM and-0.126 g/100 g total N for each additional 1℃).Irrespective of insect species,defatting increased total gas,volatile fatty acids(VFA)and CH_(4) productions,and the proportions of total saturated and branched-chain FA in rumen digesta(+0.038 mmol/g DM,+0.063 mmol/g DM,+12.9μmol/g DM,+0.18 g/100 g FA,and+0.19 g/100 g FA for each reduced 1 g EE/100 g DM,respectively),and reduced the proportion of total PUFA(-0.12 g/100 g FA).Conclusions The applied drying temperatures of full-fat insect meals are too low to exert impactful effects on rumen digestibility and FA biohydrogenation.Fat lowered fermentation activity,probably because of an inhibitory effect on rumen microbiota.The increased ruminal digestibility of defatted insect meals suggests that they can be more suitable to be used in ruminant nutrition than full-fat ones.展开更多
As a major subunit of the exocyst complex,members of the EXO70 family have mainly been shown to play roles in cell polarity and morphogenesis in Arabidopsis,but their roles in plant endosymbiosis,such as with arbuscul...As a major subunit of the exocyst complex,members of the EXO70 family have mainly been shown to play roles in cell polarity and morphogenesis in Arabidopsis,but their roles in plant endosymbiosis,such as with arbuscular mycorrhizal fungi(AMF),have rarely been reported.Here,using knockout and overexpression lines,we show that OsEXO70L2,which encodes a divergent EXO70 protein in rice,controls the number of primary roots and is essential for large lateral root formation.Furthermore,the OsEXO70L2 mutant sr1 displayed rare internal AMF hyphaeand no arbuscules.We also found that AMF sporulation can occur in roots despite low colonization and that AMF colonization and sporulation are modulated by photoperiod and co-culture with clover.Finally,genes related to auxin homeostasis were found to be affected in the OsEXO70L2 knockout or overexpression lines,suggesting that auxin is at least partly responsible for the phenotypes.This study provides new perspectives on the role of the exocyst complex during root development and AM in rice.展开更多
Background Agroecological cropping systems are recognised as an alternative way to ensure the sustainability of cotton(Gossypium hirsutum L.) production in the context of climate change and degradation of soil fertili...Background Agroecological cropping systems are recognised as an alternative way to ensure the sustainability of cotton(Gossypium hirsutum L.) production in the context of climate change and degradation of soil fertility. A study was conducted in Benin from 2020 to 2023 to compare six different cotton cultivars in three agroecological cropping systems in two cotton-growing zones. Plough-based tillage plus incorporation of cover crop biomass(PTI), conservation agriculture with strip tillage(CA_ST), and conservation agriculture with no tillage(CA_NT) were compared with the reference plough-based tillage(PT). The objective was to identify morpho-physiological traits of cotton that increase yield in agroecological cropping systems. Our approach combined a field experiment and crop simulation model(CSM) of CROPGRO-Cotton to evaluate the effects of genotype(G) × environment(E) × management(M) interactions on seed cotton yield(SCY).Results Cultivars Tamcot_camde and Okp768 and simulated ideotypes performed best in CA systems. Increased seed mass, large and thick leaves, and later maturity were identified as beneficial for yield enhancement in CA systems. Cultivars and ideotypes that combine these traits also resulted in better nitrogen and water use efficiencies in CA systems. Under different climate scenarios up to 2050, ideotypes designed could increase SCY in Benin.Conclusion A set of morpho-physiological traits associated with vegetative vigour is required to ensure a good SCY in agroecological cropping systems. These results provide scientific evidence and useful knowledge for breeders and research programmes on cropping systems focused on the adaptation of cotton to climate change.展开更多
Furfurylation,a renowned chemical modification technique,uses furfuryl alcohol to enhance the properties of wood.This technology can be further refined by incorporating renewable tannins,which promote cross-linking wi...Furfurylation,a renowned chemical modification technique,uses furfuryl alcohol to enhance the properties of wood.This technology can be further refined by incorporating renewable tannins,which promote cross-linking with furfuryl alcohol.This study investigates the effects of furfurylation and tannin-modified furfurylation on the physical and mechanical properties of tropical Gmelina wood(Gmelina arborea Roxb.).Experiments involved impregnating Gmelina wood with aqueous solutions of furfuryl alcohol(FA)at 40%and 70%concentrations,as well as FA-tannin combinations(FA 40%-TA and FA 70%-TA),followed by polymerization at 103℃.The results demonstrated that both FA and FA-tannin treatments significantly improved the wood’s physical and mechanical properties.Notably,FA-tannin treatments achieved anti-swelling efficiency comparable to FA alone.However,the addition of tannins(FA 70%-TA)enhanced leaching resistance by up to 47%,contributing to a more environmentally sustainable modification process.Mechanically,the inclusion of tannins in FA 70%-TA slightly increased the modulus of elasticity(14%~8732 kg/cm^(2))and the modulus of rupture(9%~40.9 kg/cm^(2)).Furthermore,the tannin addition imparted a darker color to the modified wood,enhancing its aesthetic appeal.This study highlights the potential of tannin-modified furfurylation to advance wood modification technology,combining improved performance with environmental benefits.展开更多
One-time application of controlled-release blended fertilizer(CRBF,a mixture of five nitrogen(N)fertilizers in a certain ratio)can achieve high yield and N use efficiency(NUE)in rice(Oryza sativa L.).However,the effec...One-time application of controlled-release blended fertilizer(CRBF,a mixture of five nitrogen(N)fertilizers in a certain ratio)can achieve high yield and N use efficiency(NUE)in rice(Oryza sativa L.).However,the effects of CRBF with one-time application on root spatial distribution and physiological characteristics remain unclear.We measured the effects of CRBF with one-time application on rice yield,NUE,root morphology and growth,and N uptake capacity in field and root box experiments.Six N treatments were set up:no nitrogen(N0),high-yield three-split application of urea as a control(CK),urea(U)with broadcast,U with side-deep fertilization,CRBF with broadcast,and CRBF with side-deep fertilization.Our findings showed that root characters were positively correlated with yield and NUE.Compared to CK and U treatments,CRBF with one-time applications increased root characters(including root biomass,root N uptake,root activity,and the expression level of ammonium transporters)at tillering and heading stages.The root length,surface area and volume in the 0-10 cm soil layer enhanced under CRBF with one-time applications at tillering stage,and in the 0-20 cm soil layer at the heading stage.This contributed a5.96%-39.40% and 3.69%-16.87% increase in plant dry matter accumulation and N uptake,and a2.08%-18.28% and 14.60%-149.57% increase in yield and NUE,in 2022 and 2023,respectively.Taken together,our findings showed that one-time application of CRBF could increase rice yield and NUE by optimizing the root morphology distribution and N uptake.展开更多
Water-soil leakage due to the longitudinal dislocation opening of tunnel segments in high-permeable soil strata is crucial for ensuring the longevity of underground tunnel infrastructures.This research delves into thi...Water-soil leakage due to the longitudinal dislocation opening of tunnel segments in high-permeable soil strata is crucial for ensuring the longevity of underground tunnel infrastructures.This research delves into this complex phenomenon employing coupled computational fluiddynamics(CFD),discrete element method(DEM),and finiteelement method(FEM),considering varied tunnel buried depths and dislocation opening sizes.Two critical areas susceptible to water-soil leakage have been identified,including an‘ellipsoid’shaped area at the tunnel top and a soil sliding area perpendicular to the tunneling direction.With a narrow segment opening(3 d_(50)),the fineloss remains below 2%across various buried depths,whereas it escalates to 7.4%-30%with increasing buried depth under a slightly wider opening(3.8d_(50)).The proposed three-dimensional(3D)ellipsoid model is used to delineate the leakage region and quantify over 98%ground soil loss due to dislocation opening.Furthermore,the research reveals that soil sliding induced by water-soil leakage significantly decreases the structural shear stress on the waists and inverts of the tunnel segment,while the soil arching at the top of the tunnel would mitigate the stress release,particularly at the lower dislocated tunnel segment.展开更多
Centaurium erythraea Rafn(“Gosset El Haya”)has long been prized in North African folk medicine,yet Moroccan chemobiological data remain scarce.Ethanol extracts of northern Moroccan aerial parts were profiled by high...Centaurium erythraea Rafn(“Gosset El Haya”)has long been prized in North African folk medicine,yet Moroccan chemobiological data remain scarce.Ethanol extracts of northern Moroccan aerial parts were profiled by high-performance liquid chromatography(HPLC)and found rich in phenolics,dominated by 4-hydroxybenzoic acid(57.8%)and naringin(10.3%).The extract exhibited strong antioxidant power in the 2,2-diphenyl-1-picrylhydrazyl(DPPH)radical-scavenging assay,with a half-maximal inhibitory concentration(IC_(50))of≈74μg mL^(−1),and a total antioxidant capacity(TAC)of≈201μg mL^(−1)and selective antimicrobial activity,sharply inhibiting Aspergillus niger,Penicillium digitatum,and Rhodotorula glutinis while sparing Staphylococcus aureus.In-silico absorption,distribution,metabolism,excretion,and toxicity(ADMET)profiling predicted good oral bioavailability for low-molecular-weight acids and aglycones,lowtoxicity across all metabolites,but absorption liabilities for bulky glycosides.Molecular docking against A.niger esterase(1UKC),C.glabrata lanosterol 14-α-demethylase CYP51(5JLC),and P.digitatum ethyleneforming oxidoreductase(9EIR)corroborated bioassays:rutin and naringin bound more tightly than fluconazole(ΔG≈−9.1 to−10.0 kcal mol^(−1)),whereas quercetin and catechin offered balanced affinity pharmacokinetic profiles.Robust radical scavenging,targeted antifungal potency,and favorable in-silico pharmacokinetics thus position Moroccan C.erythraea as a promising,though standardization-dependent,source of nutraceutical,medicinal,and food-preservation agents.These results support the valorisation of Centaurium erythraea as a promising source for health promotion and green technology applications through its antioxidant,antimicrobial,and drug-like properties.展开更多
Lymphomas represent one of the most common malignant diseases in young men and an important issue is how treatments will affect their reproductive health.It has been hypothesized that chemotherapies,similarly to envir...Lymphomas represent one of the most common malignant diseases in young men and an important issue is how treatments will affect their reproductive health.It has been hypothesized that chemotherapies,similarly to environmental chemicals,may alter the spermatogenic epigenome.Here,we report the genomic and epigenomic profiling of the sperm DNA from a 31-year-old Hodgkin lymphoma patient who faced recurrent spontaneous miscarriages in his couple 11-26 months after receiving chemotherapy with adriamycin,bleomycin,vinblastine,and dacarbazine(ABVD).In order to capture the potential deleterious impact of the ABVD treatment on mutational and methylation changes,we compared sperm DNA before and 26 months after chemotherapy with whole-genome sequencing(WGS)and reduced representation bisulfite sequencing(RRBS).The WGS analysis identified 403 variants following ABVD treatment,including 28 linked to genes crucial for embryogenesis.However,none were found in coding regions,indicating no impact of chemotherapy on protein function.The RRBS analysis identified 99high-quality differentially methylated regions(hqDMRs)for which methylation status changed upon chemotherapy.Those hqDRMs were associated with 87 differentially methylated genes,among which 14 are known to be important or expressed during embryo development.While no variants were detected in coding regions,promoter regions of several genes potentially important for embryo development contained variants or displayed an altered methylated status.These might in turn modify the corresponding gene expression and thus affect their function during key stages of embryogenesis,leading to potential developmental disorders or miscarriages.展开更多
Currently,Robinia pseudoacacia L.is distributed extensively across the Chinese Loess Plateau.Root exudates released by Robinia pseudoacacia L.are one of the mechanisms through which Robinia pseudoacacia L.affects soil...Currently,Robinia pseudoacacia L.is distributed extensively across the Chinese Loess Plateau.Root exudates released by Robinia pseudoacacia L.are one of the mechanisms through which Robinia pseudoacacia L.affects soil properties.However,how root exudates influencethe hydraulic properties of soil remains unclear,especially for fine-grained soils.This knowledge gap impedes a comprehensive understanding of the function of vegetation in wastewater treatment,ecological restoration,and seepage analysis.To investigate the effect and underlying mechanisms of the root exudates of Robinia pseudoacacia L.on the saturated hydraulic conductivity of loess(a fine-grainedsoil),the saturated hydraulic conductivity,bound water content,grain size distribution,and microstructure characteristics of loess treated with root exudates at varying concentrations were determined in this study through a series of tests.The results show that the mean saturated hydraulic conductivities of the loess specimens with root exudates are all lower than those without root exudates.This phenomenon can be attributed primarily to the capacity of root exudates to directly and indirectly increase the bound water content,leading to a decrease in the effective seepage channels of the loess.For loess with/without root exudates,the variation of saturated hydraulic conductivity over time can be divided into three stages:an initial constant stage,a rapid reduction stage,and a re-stabilization stage.This is primarily attributed to the migration of particles within a specifiedsize range(7-30μm)and pore-clogging in the specimens during the seepage process.A schematic diagram is proposed for the structural evolution of fine-grained soil with or without root exudates during long-term seepage.展开更多
The trends of consuming or using eco-friendly,biodegradable products due to the change in the lifestyle of the people have led to the exploration of new sources from plants or animals.Seed mucilage(SeM)is an underexpl...The trends of consuming or using eco-friendly,biodegradable products due to the change in the lifestyle of the people have led to the exploration of new sources from plants or animals.Seed mucilage(SeM)is an underexplored component of plants that can be brought into play to deal with such problems.Mucilage,a viscous polysaccharide that can be obtained when seeds like chia,flax,garden cress,and tomato get hydrated and form a slimy,gel-like substance around the seed coat,can be utilized due to its unique characteristics.It has been used in developing many products such as bio-based films,plant-based dressing wounds with antibacterial effects,a medium for oral drug delivery,edible coatings,etc.Primarily composed of soluble fiber,it exhibits effects on human health,including blood glucose management,cholesterol,weight reduction,antioxidant(AOx),and antimicrobial activity.It offers a range of functional properties,including emulsification,stabilization,foam formation,fat replacement,encapsulating agent,flocculation,coagulation,and medium for drug release.These attributes make SeM a suitable component for applications in various sectors like food and pharmacy.Further study in this field may open more opportunities to address environmental problems and contribute to sustainability.This review explores aspects of SeM,emphasizing its functional properties and highlighting its current as well as potential applications across various sectors.展开更多
This study was carried out to assess plasticity to drought of 30 adult fig cultivars,based on a screening of leaf structural and functional traits under sustained deficit irrigation,corresponding to 60%of crop evapotr...This study was carried out to assess plasticity to drought of 30 adult fig cultivars,based on a screening of leaf structural and functional traits under sustained deficit irrigation,corresponding to 60%of crop evapotranspiration.All trees,three per cultivar,are planted in an ex-situ collection in Sais plain,northern Morocco.The measurements concerned leaf area,blade thickness,trichomes density,trichome hair length,stomatal density,stomatal dimensions,stomatal area index,chlorophyll concentration index,relative water content,stomatal conductance,leaf temperature,water loss in detached leaves,cuticular wax content,proline content,total phenolic compounds,and total soluble sugars.The ranking of cultivars regarding drought tolerance was established based on a two-level clustering approach,primarily relying on chlorophyll concentration index and secondarily on water status traits.Results showed significant genotypic variations for all measured traits,except phenolic compounds content.Correlations between structural and functional traits have pinpointed blade thickness and trichome hair length as the key indicators of fig drought tolerance,owing to their involvement in maintaining chlorophyll content under water stress conditions.The extent of the variations shows that fig leaf is endowed with a wide structural and functional diversity,which can give to the species potential for resilience to various environmental stresses,including drought.Among the cultivars assessed,two exotic varieties,“Kadota”and“Royal Blanck”,as well as four local cultivars,namely,“Ferqouch Jmel”,“El Qoti Labied”,“Hamra”and“Fassi”showed the highest drought plasticity level.展开更多
Background Scant information is currently available on the use of insect oils in ruminant diets.Insect oils could be used as alternatives to certain conventional plant lipid sources that are considered no longer susta...Background Scant information is currently available on the use of insect oils in ruminant diets.Insect oils could be used as alternatives to certain conventional plant lipid sources that are considered no longer sustainable.This trial aims at evaluating the effects of the dietary inclusion of Hermetia illucens oil(HIO)vs.hydrogenated palm fat(HPF)on digestive parameters,oxidative stress,and milk production performance of dairy cows.Results Twenty-six Valdostana Red Pied cows were randomly divided into two groups and fed with hay ad libitum and a concentrate containing 3%(as fed)of either HPF or HIO.The trial lasted 50 d,including two weeks of diet adaptation.Individual feed intake and milk yield were monitored three and four times a week,respectively.Fecal samples were collected at the end(d 50)of the trial to determine total-tract nutrients apparent digestibility.Individual blood samples were collected to evaluate blood plasma metabolites(d 0 and d 50)and oxidative stress parameters(d 0,d 26 and d 50).Milk samples were collected at d 0,d 14,d 26,d 38 and d 50 for chemical composition analysis.Feed efficiency was estimated through feed conversion ratio and residual feed intake(RFI).Data were analyzed by SAS software using a mixed model.The diet had no effect on nutrients intake and apparent total-tract digestibility.However,the dietary inclusion of HIO led to higher milk production(+0.82 kg/cow/d;P<0.05)and slightly lower RFI(−0.008;P<0.001)when compared to the HPF diet.Milk composition and the nutritional metabolic status of the cows remained unaffected by diet.Serum antioxidant capacity was comparable between the two groups,while lower derivatives of reactive oxygen metabolite concentrations were observed in the HIO-fed cows when compared to the HPF-fed ones(−37.13 Carratelli Units;P<0.001).Conclusions The dietary inclusion of HIO instead of HPF did not negatively affect feed palatability and total-tract apparent digestibility of nutrients in dairy cows.Furthermore,it increased feed efficiency by supporting a higher milk production together with an improved antioxidant status.The results suggest that HIO could be an eligible option as an innovative energy source for dairy cows.展开更多
基金supported by the CNRS-INSU EC2CO program in the framework of the CADSOU project,by the Nouvelle Aquitaine Region in the framework of the ESTOCADE project,and by the French National Research Institute for Agriculture,Food and Environment(INRAE)The authors are grateful to Ms.Melike Emet(INRAE,UMR ISPA)and Ms.Sylvie Bussière(INRAE,UMR ISPA)for their help treating the samples,and to Ms.Francesca Degan(ARVALIS-Institut du végétal)and Ms.Séverine Piutti(INRAE,UMR LAE)for helpful comments.
文摘Cadmium(Cd)is a toxic trace metal that occurs naturally in agricultural soils and can accumulate in the edible parts of crops,notably in cereal grains.This study investigated the extent to which sulfur(S)fertilization increases the availability of Cd in a calcareous(Calc)and a non-calcareous(Ncalc)soil.Changes in Cd availability and speciation were monitored over a 21-d incubation period,along with changes in pH and the concentrations of sulfate,nitrate,calcium,magnesium,aluminum(Al),manganese(Mn),and nickel(Ni)in the potassium nitrate(KNO_(3))extracts,after the addition at agronomic rates of three forms of S fertilizers:elemental S(S(0)),potassium sulfate(K_(2)SO_(4)),and ammonium sulfate((NH_(4))_(2)SO_(4)).Elemental S did not increase the Cd concentration in the KNO_(3)extracts of either soil due to its too limited oxidation to sulfates.The two sulfate fertilizers had contrasting effects on Cd concentration depending on the nature of the counter cation(K^(+)or NH_(4)^(+)).While K_(2)SO_(4)caused almost no change in Cd concentration in either soil,(NH_(4))_(2)SO_(4)increased Cd concentration in both soils.The nitrification of NH_(4)^(+)reduced soil pH,thereby increasing the concentrations of Cd,Al,Mn,and Ni in the Ncalc soil over time,as evidenced by the strong negative correlations between soil pH and the concentrations of these four elements in the KNO3 extract after 21 d.In the Calc soil,the mechanism of Cd concentration increase after(NH_(4))_(2)SO_(4)addition was more difficult to understand and could result from the proton-mediated alteration of Cd-bearing phases such as carbonates,following ammonia(NH_(3))volatilization.The relevance of these results for the S fertilization of cereals in Cd-contaminated soils is discussed.
基金supported by a collaborative project involving INRAE/UR1264 Mycology and Food Safety,France and Syngenta,France(grant agreement 22001389-00004520).
文摘Fusarium graminearum is the causal agent of Gibberella ear rot(GER)in maize,a devastating fungal disease leading to yield reduction and contamination of grains with type B trichothecene mycotoxins(TCTB).Reducing GER damage requires the implementation of an integrated strategy in which the use of resistant maize genotypes is a key pillar.F.graminearum infects maize ears most often by the silk channel,which represents the first plant tissue encountered by the pathogen.The present study aimed at providing new phenotyping tools to improve breeding pipelines by investing the importance of maize silk composition in GER resistance.Here we used targeted and untargeted metabolomics approaches to characterize differences between genotypes reported as susceptible or tolerant to GER.Promising results were obtained with the LC-HRMS/MS analysis that led to outline 25 m/z signals,among which 14 were assigned to a unique compound,that could distinguish tolerant and susceptible genotypes.We notably evidenced that a metabolite putatively identified as feruloyl-hexose could contribute to GER tolerance,while two others putatively identified compounds(chlorogenic acid and eupatilin)could be susceptibility-associated biomarkers.The present study paves the avenue for the use of new approaches based on silk composition to improve the breeding programs aiming at increasing maize resistance.
基金supported by a grant overseen by the French National Research Agency(ANR),as part of the“Investissements d’Avenir”program(ANR-11-LABX-0002-01,Lab of Excellence ARBRE)supported by“Lorraine Universitéd’Excellence”Master Grant,ORION program and by the French Ministry of Foreign Office through EIFFEL program.
文摘Tannins are polyphenols widely present in the plant kingdom,commonly divided into two groups:condensed and hydrolysable tannins.Sustainable furanic bio-foams based on condensed tannins have been largely studied,but little is described about the use of hydrolysable tannins for this material.This study examined the potential of hydrolysable chestnut tannin in comparison to condensed mimosa tannins to produce furanic foams by chemical expansion.Due to the low reactivity of the hydrolysable tannin,the use of an external source for its polymerization and curing was necessary.Through Fourier transform infrared spectroscopy(FTIR)chromatography,it was possible to observe that the new foams presented small differences in functional groups compared to the condensed tannin foams,presenting peaks related to carboxyl groups.In terms of physical properties,the chestnut foams showed an apparent density 36%higher than the conventional mimosa tannin foams and a superior hydrophilic character.In terms of thermal properties,both foams exhibit high thermal stability,with the acacia tannin foam being slightly superior.In summary,this research paves the way for new applications of hydrolysable tannins in bio-foams and materials science.
基金PROTEXTWOOD (ID 2202-102) funded through LabEx AGRO ANR-10-LABX-0001-01 (under ISiteUniversité de Montpellier framework)the project PANTHER2-Guyane funded through AgenceNationale de la Recherche (ANR-22-CE43-0019)+2 种基金“Investissement d’Avenir” grant managed by Agence Nationale de la Recherche (CEBA, ref. ANR-10-LABX-25-01)supported by the FEDER (European Regional Development Fund)research project “EcovaloBois” (Project number: GY0015430)by the CNRS peps INSIS2018 research project “GuyavaloFibres”.
文摘The valorization of Amazonian wood residues into active chemical compounds could be an eco-friendly,cost-effective and valuable way to develop wood preservative formulations to enhance the decay and termite resistance of low-durable wood species.Wacapou(Vouacapoua americana.,Fabaceae)is a well-known Guianese wood spe-cies commonly used in local wood construction due to its outstanding natural durability,which results from the presence of a large panel of extractives compounds.In addition,its industrial processing generates large amounts of residues.Wacapou residues were extracted by maceration using four different solvents(water/ethanol,ethyl acetate,hexane and dichloromethane/methanol),separately and successively.The yield of each extractive fraction was determined,and their chemical compositions were analyzed by Liquid Chromatography-Mass Spectrometry(LC-MS).Ethyl acetate led to the highest extraction yield,and the active compounds were identified in the obtained extractive fraction.In this sense,the fungicidal and termite-repellent properties of these extractives were then tested using a screening laboratory(with temperate and tropical microorganisms),according to the solution concentration(1%,2.5%,5%,8%and 10%).Finally,Virola michelii Heckel wood samples(low durable species)were impregnated with the 8%concentration solution.The impregnated wood samples were then exposed to a soil bed test.The results highlighted that the nature of the solvent used during wood maceration affects the con-tent of the obtained extractive fractions.Ultra-Performance Liquid Chromatography–High-Resolution Mass Spectrometry(UHPLC-HRMS)analyses showed the influence of extraction parameters on the nature of the extracted molecules.Wacapou extracts(from ethyl acetate maceration)showed good anti-fungal and anti-termite activities.Additionally,the concentration in extractives had an impact on the anti-termite activity level for Reti-culitermesflavipes and Cryptotermes sp.Formulations based on Wacapou extractives showed a good potential for valorization in eco-friendly preservatives,aiming to confer better durability to local low-durability wood species.
基金UR 4370 LERMAB is supported by a grant overseen by the French National Research Agency(ANR)as part of the“Investissements d’Avenir”program(ANR-11-LABX-0002-01,Lab of Excellence ARBRE)in the frame of the project“Woodstic”ICEEL for the financial in the frame of the project“BoisPlast”(CARN 001301).
文摘Bio-based thermoplastic film from flax fiber and fatty acid(FA)was obtained using trifluoroacetic anhydride(TFAA)as an impelling agent.Different quantities of TFAA/FA,size of flax fiber,and fatty acids were applied to investigate chemical structure in relation to the mechanical properties.Decreasing the quantity of TFAA/FA by almost half from 1:4 to 1:2.5(flax to TFAA/FA)only reduces by 22%the weight percent gain(WPG)and ester content and reducing flax fiber size slightly increases the WPG and ester content.All the treatments showed sig-nificant chemical structure modification,observed by FTIR and solid CP/MAS^(13)C NMR,confirming the presence of carbonyl ester groups and alkyl chains,in relatively similar intensities.The crystallinity index(CrI)of esterified flax was evaluated by comparing the signal of solid CP/MAS^(13)C NMR in crystalline and amorphous regions and CrI was higher in esterified flax using a lower quantity of reagent and longer fatty acid.Esterified flax in a high quantity of reagent showed ductile or flexible behavior.Decreasing the reagent to 1:2.5 significantly increases the tensile strength and Young’s modulus,and decreases the elongation at break,presenting more brittle and stiff material.Using flax fiber in the original size results in slightly higher tensile strength and Young’s modulus and slightly lower elongation than milled flax.The tensile strength and Young’s modulus of stearic acid esterified flax obtained in this research were higher than myristic acid and comparable to the polyethylene plastics-LDPE and HDPE.
基金partially granted by the Hi-Ga project,which is part of the programme of the Green ERA-Hub that has received funding from the European Union’s Horizon Europe research and innovation programme under Grant Agreement No.101056828self-financed by the DINAMIC team of the UMR Herbivores(INRAE,VetAgro Sup,Saint-Genès-Champanelle,France)。
文摘Background Insect meals have been identified as innovative and sustainable feedstuffs that could be used in ruminant nutrition.However,current research on the effects that their processing may have on rumen digestibility and fatty acid(FA)biohydrogenation is scant.This trial aims to investigate the effects(i)of drying temperature of fullfat Hermetia illucens(HI)and Tenebrio molitor(TM)meals,and(ii)of residual ether extract(EE)content of defatted HI and TM meals,on their fermentation characteristics and FA of rumen digesta after 24-h in vitro rumen incubation.Methods The tested full-fat meals included four HI and four TM meals obtained applying drying temperatures ranging from 30℃ to 70℃,while the tested defatted meals consisted of five HI and two TM meals containing a residual EE content ranging from 4.7 to 19.7 g EE/100 g dry matter(DM).The applied statistical models(GLM ANOVA)tested the effects of insect species,drying temperature(full-fat meals)or EE content(defatted meals),and their interaction.Results Drying temperature had minor effects on in vitro ruminal digestibility and FA profile of rumen digesta.Irrespective of insect species,increasing the drying temperature led to a reduction of in vitro degradation of proteins from insect meals,as outlined by the significant decrease in ammonia production(-0.009 mmol/g DM and-0.126 g/100 g total N for each additional 1℃).Irrespective of insect species,defatting increased total gas,volatile fatty acids(VFA)and CH_(4) productions,and the proportions of total saturated and branched-chain FA in rumen digesta(+0.038 mmol/g DM,+0.063 mmol/g DM,+12.9μmol/g DM,+0.18 g/100 g FA,and+0.19 g/100 g FA for each reduced 1 g EE/100 g DM,respectively),and reduced the proportion of total PUFA(-0.12 g/100 g FA).Conclusions The applied drying temperatures of full-fat insect meals are too low to exert impactful effects on rumen digestibility and FA biohydrogenation.Fat lowered fermentation activity,probably because of an inhibitory effect on rumen microbiota.The increased ruminal digestibility of defatted insect meals suggests that they can be more suitable to be used in ruminant nutrition than full-fat ones.
基金supported by the National Natural Science Foundation of China(32171970)the Chongqing Talent Program,China(cstc2022ycjh-bgzxm0073)+1 种基金the Natural Science Foundation of Chongqing,China(cstc2021jcyjcxtt X0004)the Rice Innovative Research Team of Chongqing Modern Agricultural Industrial Technology System,China(CQMAITS202301)。
文摘As a major subunit of the exocyst complex,members of the EXO70 family have mainly been shown to play roles in cell polarity and morphogenesis in Arabidopsis,but their roles in plant endosymbiosis,such as with arbuscular mycorrhizal fungi(AMF),have rarely been reported.Here,using knockout and overexpression lines,we show that OsEXO70L2,which encodes a divergent EXO70 protein in rice,controls the number of primary roots and is essential for large lateral root formation.Furthermore,the OsEXO70L2 mutant sr1 displayed rare internal AMF hyphaeand no arbuscules.We also found that AMF sporulation can occur in roots despite low colonization and that AMF colonization and sporulation are modulated by photoperiod and co-culture with clover.Finally,genes related to auxin homeostasis were found to be affected in the OsEXO70L2 knockout or overexpression lines,suggesting that auxin is at least partly responsible for the phenotypes.This study provides new perspectives on the role of the exocyst complex during root development and AM in rice.
基金supported by the Benin Cotton Research Institute (IRC)the Cotton Interprofessional Association (AIC)+1 种基金the French Agricultural Research Centre for International Development (CIRAD)the TAZCO_(2) project (Transition Agroécologique des Zones Cotonnières du Bénin),which is funded by the Republic of Benin and the French Development Agency (AFD)。
文摘Background Agroecological cropping systems are recognised as an alternative way to ensure the sustainability of cotton(Gossypium hirsutum L.) production in the context of climate change and degradation of soil fertility. A study was conducted in Benin from 2020 to 2023 to compare six different cotton cultivars in three agroecological cropping systems in two cotton-growing zones. Plough-based tillage plus incorporation of cover crop biomass(PTI), conservation agriculture with strip tillage(CA_ST), and conservation agriculture with no tillage(CA_NT) were compared with the reference plough-based tillage(PT). The objective was to identify morpho-physiological traits of cotton that increase yield in agroecological cropping systems. Our approach combined a field experiment and crop simulation model(CSM) of CROPGRO-Cotton to evaluate the effects of genotype(G) × environment(E) × management(M) interactions on seed cotton yield(SCY).Results Cultivars Tamcot_camde and Okp768 and simulated ideotypes performed best in CA systems. Increased seed mass, large and thick leaves, and later maturity were identified as beneficial for yield enhancement in CA systems. Cultivars and ideotypes that combine these traits also resulted in better nitrogen and water use efficiencies in CA systems. Under different climate scenarios up to 2050, ideotypes designed could increase SCY in Benin.Conclusion A set of morpho-physiological traits associated with vegetative vigour is required to ensure a good SCY in agroecological cropping systems. These results provide scientific evidence and useful knowledge for breeders and research programmes on cropping systems focused on the adaptation of cotton to climate change.
基金funded by the Directorate General of Higher Education,Research,and Technology,Ministry of Education,Culture,Research,and Technology,Indonesia,which sponsored the research grant via the National Competitive Basic Research Scheme,No.027/E5/PG.02.00.PL/2024facilitated by IPB University(Bogor Agricultural University)through Research Contract No.22055/IT3.D10/PT.01.03/P/B/2024+1 种基金funded by Research Organization for Nanotechnology and Materials No.3/III.10/HK/2023National Research and Innovation Agency(BRIN),Indonesia.
文摘Furfurylation,a renowned chemical modification technique,uses furfuryl alcohol to enhance the properties of wood.This technology can be further refined by incorporating renewable tannins,which promote cross-linking with furfuryl alcohol.This study investigates the effects of furfurylation and tannin-modified furfurylation on the physical and mechanical properties of tropical Gmelina wood(Gmelina arborea Roxb.).Experiments involved impregnating Gmelina wood with aqueous solutions of furfuryl alcohol(FA)at 40%and 70%concentrations,as well as FA-tannin combinations(FA 40%-TA and FA 70%-TA),followed by polymerization at 103℃.The results demonstrated that both FA and FA-tannin treatments significantly improved the wood’s physical and mechanical properties.Notably,FA-tannin treatments achieved anti-swelling efficiency comparable to FA alone.However,the addition of tannins(FA 70%-TA)enhanced leaching resistance by up to 47%,contributing to a more environmentally sustainable modification process.Mechanically,the inclusion of tannins in FA 70%-TA slightly increased the modulus of elasticity(14%~8732 kg/cm^(2))and the modulus of rupture(9%~40.9 kg/cm^(2)).Furthermore,the tannin addition imparted a darker color to the modified wood,enhancing its aesthetic appeal.This study highlights the potential of tannin-modified furfurylation to advance wood modification technology,combining improved performance with environmental benefits.
基金supported by the National Key Research and Development Program of China(2023YFD2301304,2022YFD2301404-4,2023YFD2302600,and 2022YFE0116200)Open Subjects of the Key Laboratory of Agro-Environment in the Middle and Lower Yangtze River Plain,Ministry of Agriculture and Rural Affairs of China(2023F12)+1 种基金National Natural Science Foundation of China(32301964)Sanya Yazhou Bay Science and Technology City Project(SKJC-2023-02-004)。
文摘One-time application of controlled-release blended fertilizer(CRBF,a mixture of five nitrogen(N)fertilizers in a certain ratio)can achieve high yield and N use efficiency(NUE)in rice(Oryza sativa L.).However,the effects of CRBF with one-time application on root spatial distribution and physiological characteristics remain unclear.We measured the effects of CRBF with one-time application on rice yield,NUE,root morphology and growth,and N uptake capacity in field and root box experiments.Six N treatments were set up:no nitrogen(N0),high-yield three-split application of urea as a control(CK),urea(U)with broadcast,U with side-deep fertilization,CRBF with broadcast,and CRBF with side-deep fertilization.Our findings showed that root characters were positively correlated with yield and NUE.Compared to CK and U treatments,CRBF with one-time applications increased root characters(including root biomass,root N uptake,root activity,and the expression level of ammonium transporters)at tillering and heading stages.The root length,surface area and volume in the 0-10 cm soil layer enhanced under CRBF with one-time applications at tillering stage,and in the 0-20 cm soil layer at the heading stage.This contributed a5.96%-39.40% and 3.69%-16.87% increase in plant dry matter accumulation and N uptake,and a2.08%-18.28% and 14.60%-149.57% increase in yield and NUE,in 2022 and 2023,respectively.Taken together,our findings showed that one-time application of CRBF could increase rice yield and NUE by optimizing the root morphology distribution and N uptake.
基金supported by the National Natural Science Foundation of China(Grant Nos.52090084 and 52208354)the Shenzhen Science and Technology Program(Grant No.KQTD20221101093555006).
文摘Water-soil leakage due to the longitudinal dislocation opening of tunnel segments in high-permeable soil strata is crucial for ensuring the longevity of underground tunnel infrastructures.This research delves into this complex phenomenon employing coupled computational fluiddynamics(CFD),discrete element method(DEM),and finiteelement method(FEM),considering varied tunnel buried depths and dislocation opening sizes.Two critical areas susceptible to water-soil leakage have been identified,including an‘ellipsoid’shaped area at the tunnel top and a soil sliding area perpendicular to the tunneling direction.With a narrow segment opening(3 d_(50)),the fineloss remains below 2%across various buried depths,whereas it escalates to 7.4%-30%with increasing buried depth under a slightly wider opening(3.8d_(50)).The proposed three-dimensional(3D)ellipsoid model is used to delineate the leakage region and quantify over 98%ground soil loss due to dislocation opening.Furthermore,the research reveals that soil sliding induced by water-soil leakage significantly decreases the structural shear stress on the waists and inverts of the tunnel segment,while the soil arching at the top of the tunnel would mitigate the stress release,particularly at the lower dislocated tunnel segment.
文摘Centaurium erythraea Rafn(“Gosset El Haya”)has long been prized in North African folk medicine,yet Moroccan chemobiological data remain scarce.Ethanol extracts of northern Moroccan aerial parts were profiled by high-performance liquid chromatography(HPLC)and found rich in phenolics,dominated by 4-hydroxybenzoic acid(57.8%)and naringin(10.3%).The extract exhibited strong antioxidant power in the 2,2-diphenyl-1-picrylhydrazyl(DPPH)radical-scavenging assay,with a half-maximal inhibitory concentration(IC_(50))of≈74μg mL^(−1),and a total antioxidant capacity(TAC)of≈201μg mL^(−1)and selective antimicrobial activity,sharply inhibiting Aspergillus niger,Penicillium digitatum,and Rhodotorula glutinis while sparing Staphylococcus aureus.In-silico absorption,distribution,metabolism,excretion,and toxicity(ADMET)profiling predicted good oral bioavailability for low-molecular-weight acids and aglycones,lowtoxicity across all metabolites,but absorption liabilities for bulky glycosides.Molecular docking against A.niger esterase(1UKC),C.glabrata lanosterol 14-α-demethylase CYP51(5JLC),and P.digitatum ethyleneforming oxidoreductase(9EIR)corroborated bioassays:rutin and naringin bound more tightly than fluconazole(ΔG≈−9.1 to−10.0 kcal mol^(−1)),whereas quercetin and catechin offered balanced affinity pharmacokinetic profiles.Robust radical scavenging,targeted antifungal potency,and favorable in-silico pharmacokinetics thus position Moroccan C.erythraea as a promising,though standardization-dependent,source of nutraceutical,medicinal,and food-preservation agents.These results support the valorisation of Centaurium erythraea as a promising source for health promotion and green technology applications through its antioxidant,antimicrobial,and drug-like properties.
文摘Lymphomas represent one of the most common malignant diseases in young men and an important issue is how treatments will affect their reproductive health.It has been hypothesized that chemotherapies,similarly to environmental chemicals,may alter the spermatogenic epigenome.Here,we report the genomic and epigenomic profiling of the sperm DNA from a 31-year-old Hodgkin lymphoma patient who faced recurrent spontaneous miscarriages in his couple 11-26 months after receiving chemotherapy with adriamycin,bleomycin,vinblastine,and dacarbazine(ABVD).In order to capture the potential deleterious impact of the ABVD treatment on mutational and methylation changes,we compared sperm DNA before and 26 months after chemotherapy with whole-genome sequencing(WGS)and reduced representation bisulfite sequencing(RRBS).The WGS analysis identified 403 variants following ABVD treatment,including 28 linked to genes crucial for embryogenesis.However,none were found in coding regions,indicating no impact of chemotherapy on protein function.The RRBS analysis identified 99high-quality differentially methylated regions(hqDMRs)for which methylation status changed upon chemotherapy.Those hqDRMs were associated with 87 differentially methylated genes,among which 14 are known to be important or expressed during embryo development.While no variants were detected in coding regions,promoter regions of several genes potentially important for embryo development contained variants or displayed an altered methylated status.These might in turn modify the corresponding gene expression and thus affect their function during key stages of embryogenesis,leading to potential developmental disorders or miscarriages.
基金financial support from the National Natural Science Foundation of China(Grant Nos.42007251 and 42027806)the Doctoral Dissertation Cultivation Project of Northwest University(Grant No.YB2024016).
文摘Currently,Robinia pseudoacacia L.is distributed extensively across the Chinese Loess Plateau.Root exudates released by Robinia pseudoacacia L.are one of the mechanisms through which Robinia pseudoacacia L.affects soil properties.However,how root exudates influencethe hydraulic properties of soil remains unclear,especially for fine-grained soils.This knowledge gap impedes a comprehensive understanding of the function of vegetation in wastewater treatment,ecological restoration,and seepage analysis.To investigate the effect and underlying mechanisms of the root exudates of Robinia pseudoacacia L.on the saturated hydraulic conductivity of loess(a fine-grainedsoil),the saturated hydraulic conductivity,bound water content,grain size distribution,and microstructure characteristics of loess treated with root exudates at varying concentrations were determined in this study through a series of tests.The results show that the mean saturated hydraulic conductivities of the loess specimens with root exudates are all lower than those without root exudates.This phenomenon can be attributed primarily to the capacity of root exudates to directly and indirectly increase the bound water content,leading to a decrease in the effective seepage channels of the loess.For loess with/without root exudates,the variation of saturated hydraulic conductivity over time can be divided into three stages:an initial constant stage,a rapid reduction stage,and a re-stabilization stage.This is primarily attributed to the migration of particles within a specifiedsize range(7-30μm)and pore-clogging in the specimens during the seepage process.A schematic diagram is proposed for the structural evolution of fine-grained soil with or without root exudates during long-term seepage.
文摘The trends of consuming or using eco-friendly,biodegradable products due to the change in the lifestyle of the people have led to the exploration of new sources from plants or animals.Seed mucilage(SeM)is an underexplored component of plants that can be brought into play to deal with such problems.Mucilage,a viscous polysaccharide that can be obtained when seeds like chia,flax,garden cress,and tomato get hydrated and form a slimy,gel-like substance around the seed coat,can be utilized due to its unique characteristics.It has been used in developing many products such as bio-based films,plant-based dressing wounds with antibacterial effects,a medium for oral drug delivery,edible coatings,etc.Primarily composed of soluble fiber,it exhibits effects on human health,including blood glucose management,cholesterol,weight reduction,antioxidant(AOx),and antimicrobial activity.It offers a range of functional properties,including emulsification,stabilization,foam formation,fat replacement,encapsulating agent,flocculation,coagulation,and medium for drug release.These attributes make SeM a suitable component for applications in various sectors like food and pharmacy.Further study in this field may open more opportunities to address environmental problems and contribute to sustainability.This review explores aspects of SeM,emphasizing its functional properties and highlighting its current as well as potential applications across various sectors.
文摘This study was carried out to assess plasticity to drought of 30 adult fig cultivars,based on a screening of leaf structural and functional traits under sustained deficit irrigation,corresponding to 60%of crop evapotranspiration.All trees,three per cultivar,are planted in an ex-situ collection in Sais plain,northern Morocco.The measurements concerned leaf area,blade thickness,trichomes density,trichome hair length,stomatal density,stomatal dimensions,stomatal area index,chlorophyll concentration index,relative water content,stomatal conductance,leaf temperature,water loss in detached leaves,cuticular wax content,proline content,total phenolic compounds,and total soluble sugars.The ranking of cultivars regarding drought tolerance was established based on a two-level clustering approach,primarily relying on chlorophyll concentration index and secondarily on water status traits.Results showed significant genotypic variations for all measured traits,except phenolic compounds content.Correlations between structural and functional traits have pinpointed blade thickness and trichome hair length as the key indicators of fig drought tolerance,owing to their involvement in maintaining chlorophyll content under water stress conditions.The extent of the variations shows that fig leaf is endowed with a wide structural and functional diversity,which can give to the species potential for resilience to various environmental stresses,including drought.Among the cultivars assessed,two exotic varieties,“Kadota”and“Royal Blanck”,as well as four local cultivars,namely,“Ferqouch Jmel”,“El Qoti Labied”,“Hamra”and“Fassi”showed the highest drought plasticity level.
基金funded by the HiGa project,supported within the Green Era Hub call by the Green Development and Demonstration Programme,GUDP,under the Ministry of Food,Agriculture and Fisheries of Denmark,the Flanders Innovation&Entrepreneurship(VLAIO)the Italian Ministry of Agriculture,Food Sovereignty and Forests(CUP:D23 C23000570005).
文摘Background Scant information is currently available on the use of insect oils in ruminant diets.Insect oils could be used as alternatives to certain conventional plant lipid sources that are considered no longer sustainable.This trial aims at evaluating the effects of the dietary inclusion of Hermetia illucens oil(HIO)vs.hydrogenated palm fat(HPF)on digestive parameters,oxidative stress,and milk production performance of dairy cows.Results Twenty-six Valdostana Red Pied cows were randomly divided into two groups and fed with hay ad libitum and a concentrate containing 3%(as fed)of either HPF or HIO.The trial lasted 50 d,including two weeks of diet adaptation.Individual feed intake and milk yield were monitored three and four times a week,respectively.Fecal samples were collected at the end(d 50)of the trial to determine total-tract nutrients apparent digestibility.Individual blood samples were collected to evaluate blood plasma metabolites(d 0 and d 50)and oxidative stress parameters(d 0,d 26 and d 50).Milk samples were collected at d 0,d 14,d 26,d 38 and d 50 for chemical composition analysis.Feed efficiency was estimated through feed conversion ratio and residual feed intake(RFI).Data were analyzed by SAS software using a mixed model.The diet had no effect on nutrients intake and apparent total-tract digestibility.However,the dietary inclusion of HIO led to higher milk production(+0.82 kg/cow/d;P<0.05)and slightly lower RFI(−0.008;P<0.001)when compared to the HPF diet.Milk composition and the nutritional metabolic status of the cows remained unaffected by diet.Serum antioxidant capacity was comparable between the two groups,while lower derivatives of reactive oxygen metabolite concentrations were observed in the HIO-fed cows when compared to the HPF-fed ones(−37.13 Carratelli Units;P<0.001).Conclusions The dietary inclusion of HIO instead of HPF did not negatively affect feed palatability and total-tract apparent digestibility of nutrients in dairy cows.Furthermore,it increased feed efficiency by supporting a higher milk production together with an improved antioxidant status.The results suggest that HIO could be an eligible option as an innovative energy source for dairy cows.
