International Journal of Recycling of Organic Waste in Agriculture (IJROWA)Effects of organic amendments on sand dune fixationVolume 5 (2016)Issue 1, March 201620240131Effects of organic amendments on sand dune fixation10.1007/s40093-015-0111-5ENE.A. ElhadiNational Center for ResearchA.R. MubarakUniversity of KhartoumF.A. M. RezigNational Center for ResearchJournal Article20240131Background Poor physical and chemical properties of sand dune soil are the main constrains in afforestation of sand dune in desertified area. The aim of this study is to improve the physical and chemical properties of dune soil in Elrawakeeb Dry Land Station using organic wastes as a fertilizer source and amendments, for sustainable sand dune stabilization program. Salvadora persica L. seedlings were transplanted in a 2 m 9 2 m plots and treated with: sawdust (SW), chicken manure (CH), chicken manure with sawdust (CH ? SW), sawdust with inorganic fertilizer (SW ? IF), sewage sludge (SS), sewage sludge with sawdust (SS ? SW), and control (C). The treatments were arranged in a randomized complete block design with four replicates. The soil chemical properties were determined from soil samples collected from the fixed sand dune (0–20 cm depth) in the second year after application. Results Application of organic amendments significantly (P = 0.001) increased soil organic carbon by 224 %, available P by 139.9 %, total nitrogen by 142.9 %, and mineral nitrogen by 83.5 % and decreased soil pH by 5.6 %. Conclusions Incorporation of organic waste in desertified sandy dune soils increased its nutrient content and hence sustained biological fixation of sand dunes.International Journal of Recycling of Organic Waste in Agriculture (IJROWA)The effect of rice hull as a silicon source on anthracnose disease resistance and some growth and fruit parameters of capsicum grown in simplified hydroponicsVolume 5 (2016)Issue 1, March 201620240131The effect of rice hull as a silicon source on anthracnose disease resistance and some growth and fruit parameters of capsicum grown in simplified hydroponics10.1007/s40093-015-0112-4ENRuwaniKalpana JayawardanaOpen University of Sri Lanka0000-0003-2361-0840DarshaniWeerahewaOpen University of Sri LankaJanakieSaparamaduOpen University of Sri LankaJournal Article20240131Introduction Silicon is beneficial for many plants for growth, yield and enhancing resistance to biotic and abiotic stresses. In the present study, silicon as a form of rice hull sand mixture (3:2 v/v) was used in simplified hydroponic system to evaluate the performance and disease resistance of Capsicum annuum L. The nutrients were supplied by NF (New Formula) or Albert’s solution. Results Continuous monitoring of soluble silicon content in the simplified hydroponic boxes revealed that a high amount of silicon was leached by the rice hull sand medium. Disease resistance was assessed by challenge inoculation of harvested fruits with anthracnose-causing fungi, Colletotrichum gloeosporioides, and it was observed a significant disease reduction (over 83 %) in fruits harvested from simplified hydroponic system compared to that of liquid hydroponic system. Shoot length, root length, fruit length, fruit weight and fruit firmness were also increased significantly in simplified system compared to the liquid system. However, the results were not significantly affected by the nutrient solutions used in these two systems. Conclusions In conclusion, the simplified hydroponic system composed of rice hull, as a natural silicon supplement could be used as a low-cost environmental friendly growing method of capsicum to enhance resistance against anthracnose disease, and to improve plant growth and fruit quality.International Journal of Recycling of Organic Waste in Agriculture (IJROWA)King oyster mushroom production using various sources of agricultural wastes in IranVolume 5 (2016)Issue 1, March 201620240131King oyster mushroom production using various sources of agricultural wastes in Iran10.1007/s40093-015-0113-3ENElaheKazemi JeznabadiIslamic Azad UniversityMehrdadJafarpourIslamic Azad UniversityShahinEghbalsaiedIslamic Azad UniversityJournal Article20240131Background King oyster mushroom (Pleurotus eryngii) contains many medicinal and nutritional values, excellent flavors, and a long shelf life. Cultivation of edible mushroom on agricultural and lignocellulosic waste like wheat straw and wood chips gives a high yield and nutritional contains. In present study, the effects of lignocellulosic organic wastes, such as wood chips, wheat and barley straw, sugar beet pulp, sawdust and maize stem residue as basal substrate and wheat and rice bran, soybean powder and their combinations were used as supplements. We analyzed mushroom production gap, mushroom fresh weight, moisture content, dry matter, and protein content of fruit body traits. A factorial experiment was conducted in a completely randomized design with four replications. Results Supplementation of wheat bran in wood chips increased the mushroom production gap and dry matter content. The highest mushroom fresh weight and moisture content were achieved on barley straw and sugar beet pulp substrate complemented with rice bran, respectively. In addition, protein content ranged from 4.64 % (barley straw ? wheat bran and wood chips ? soybean powder ? rice bran treatments) to 13.66 % (wheat straw ? wheat bran ? soybean powder treatment). Conclusions The quality of P. eryngii was significantly affected by substrate ingredients. The type of substrate as well as the type and quantity of supplement appeared to have a substantial effect on prolonging the delayed-release nutrients.International Journal of Recycling of Organic Waste in Agriculture (IJROWA)Tomato seedling growth response to different water sources and a substrate partially replaced with dewatered aquaculture effluentVolume 5 (2016)Issue 1, March 201620240131Tomato seedling growth response to different water sources and a substrate partially replaced with dewatered aquaculture effluent10.1007/s40093-016-0114-xENJasonJ. DanaherPentair Aquatic Ecosystems, Apopka, USAJeremyM. PickensDepartment of Horticulture, Auburn University, Auburn, USAJeffreyL. SibleyDepartment of Horticulture, Auburn University, Auburn, USAJesseA. ChappellSchool of Fisheries, Aquaculture and Aquatic Sciences, Auburn, USATerrillR. HansonSchool of Fisheries, Aquaculture and Aquatic Sciences, Auburn, USAClaudeE. BoydSchool of Fisheries, Aquaculture and Aquatic Sciences, Auburn, USAJournal Article20240131Purpose The experiment was performed to determine the effect a commercial potting mix partially replaced with dewatered aquaculture effluent had on tomato transplant growth. Methods The experiment was designed as a 2 9 3 factorial and evaluated two water sources (water-soluble, inorganic fertilizer or municipal water) and three soilless substrates with 0, 5 or 10 % dewatered aquaculture effluent (v/v) on substrate properties and tomato (Solanum lycopersicum Mill. ‘Bolseno’) transplant growth. The layout was a completely randomized design with twelve single-pot replications for each treatment. Results There was a substrate and water interaction affecting plant height, leaf dry matter (LDM), stem dry matter, root dry matter (RDM), and total dry matter (TDM). Tomato plants watered with inorganic fertilizer and grown in substrates replaced with 0 and 5 % dewatered aquaculture effluent had greater LDM, RDM, and TDM compared to plants watered with municipal water. However, tomato plant growth in substrate partially replaced with 10 % dewatered aquaculture effluent was similar irrespective of water source. Conclusion Substrates incorporated with 10 % aquaculture effluent provided optimal physical and chemical properties along with sufficient nutrients for tomato transplants without the need for commercial, inorganic fertilizer.International Journal of Recycling of Organic Waste in Agriculture (IJROWA)Feasibility and performance of high-rate psychrophilic dry anaerobic digestion of high solids content dairy manureVolume 5 (2016)Issue 1, March 201620240131Feasibility and performance of high-rate psychrophilic dry anaerobic digestion of high solids content dairy manure10.1007/s40093-016-0115-9ENNooriM. Cata SaadyDepartment of Civil Engineering, Memorial University of Newfoundland, St. John’s, Newfoundland and Labrador, A1B 3X5, CanadaDanielI. MasséAgriculture and Agri-Food CanadaJournal Article20240131Purposes The main purpose of the R&D was to develop a novel high-rate psychrophilic dry anaerobic digestion (PDAD) for processing a mixture of cow feces and wheat straw (CFWS) in sequencing batch bioreactor (SBR) operated at high organic loading rate (OLR). The main research question was to assess the feasibility of operating the PDAD-SBR at OLR of 9.0 and 10.0 g TCOD kg-1 inoculum day-1 . Methods Two pairs of 40 L duplicate bioreactors located in a temperature-controlled room (20 C) were operated as sequencing batch reactors (SBRs) and were fed CFWS (27 % total solids) at OLRs of 9.0 and 10.0 g TCOD kg-1 inoculum day-1 during three successive treatment cycles of 21 days each. The biogas production, biogas composition, volatile fatty acids, and volatile solids were monitored to assess the performance of the PDAD-SBRs. Results The PDAD process fed with cow feces and wheat straw (TS of 27 %) at OLR 9.0 and 10.0 g TCOD kg-1 inoculum day-1 (6.53 ± 0.06 and 7.27 ± 0.12 g VS kg-1 inoculum day-1 ) resulted in average specific methane yields (SMYs) of 134.0 ± 7.7, 136.4 ± 4.9 NL CH4 kg-1 VS fed, respectively, with an average volatile solids removal of 35 % at the ends of treatment cycles (21 days). Conclusions This study reports for the first time successful operation of psychrophilic (20 C) dry anaerobic digestion (PDAD) of cow feces with wheat straw (CFWS) at 27 % total solids and OLR of 9.0 and 10.0 g TCOD kg-1 inoculum day-1 in relatively short treatment cycle length (21 days).International Journal of Recycling of Organic Waste in Agriculture (IJROWA)Production, characterization and evaluation of biochar from pod (Pisum sativum), leaf (Brassica oleracea) and peel (Citrus sinensis) wastesVolume 5 (2016)Issue 1, March 201620240131Production, characterization and evaluation of biochar from pod (Pisum sativum), leaf (Brassica oleracea) and peel (Citrus sinensis) wastes10.1007/s40093-016-0116-8ENG.Stella MaryShri A.M.M. Murugappa Chettiar Research CenterP.SugumaranShri A.M.M. Murugappa Chettiar Research CenterS.NivedithaJeppiaar Engineering CollegeB.RamalakshmiJeppiaar Engineering CollegeP.RavichandranShri A.M.M. Murugappa Chettiar Research CenterS.SeshadriShri A.M.M. Murugappa Chettiar Research CenterJournal Article20240131Purpose Biochar has potential as a valuable tool for the agricultural industry with its unique ability to help build soil health, increase physical properties of soil, soil pH, organic carbon content, conserve water and mitigate drought, reduce GHG emission, conserve nutrients, decrease fertilizer requirements, sequester carbon,increase crop productivity and serve as a most preferred habitat for microbes. In this study, three perishable biomass wastes viz. Pea pod (Pisum sativum), cauliflower leaves (Brassica oleracea) and orange peel wastes (Citrus sinensis) were carbonized and characterized for differential application. Methods The biomass was subjected to carbonization at different temperatures from 100 to 600 C for 1 h. Biomass and biochar samples were characterized for proximate (M, VM, FC, Ash), ultimate (CHNS-O), biochemical properties (Ce, He, Li), thermo gravimetric analysis, pH, EC and bulk density. The biochars were also analyzed through SEM and FTIR for identification of pore size and functional groups. Results The char yield was high in cauliflower leaf (30.16 %), followed by orange peel (25.54 %) and pea pod (21.154 %) at 300 C. The total organic carbon (11.61 %), total negative surface anions (4.25 mmol H? eq/g C) and water holding capacity (200 %) were high in pea pod biochar. The SEM images of biochar samples showed plane cleavage surfaces with broken edges. The surface functional groups of all the three biochar samples were hydroxyl, methyl, carboxylic and alkene groups. Conclusion The pea pod and cauliflower leaf biochar showed higher values of organic carbon, total surface anions, water holding capacity and mineral content and performed as best soil amendment than orange peel biochar. These biochar can be used as an effective medium for increasing soil carbon, irrigation efficiency and efficient disposal of agricultural waste-biomass.International Journal of Recycling of Organic Waste in Agriculture (IJROWA)Chemical study of vermicomposted agroindustrial wastesVolume 5 (2016)Issue 1, March 201620240131Chemical study of vermicomposted agroindustrial wastes10.1007/s40093-016-0117-7ENLíviaB. Favoretto PigatinEnvironmental Chemistry Laboratory-São Carlos Chemistry Institute, University of São Paulo, São Carlos, BrazilIdowuAdemola AtoloyeDepartment of Soil Science and Land Resources Management, Faculty of Agriculture, Obafemi Awolowo University, Ile-Ife, NigeriaOluwatoyinAbosede ObikoyaDepartment of Soil Science, Faculty of Agriculture and Food Science, University of Manitoba, Winnipeg, CanadaAurélioVinicius BorsatoEmbrapa Pantanal, Corumbá, BrazilMariaOlímpia Oliveira RezendeEnvironmental Chemistry Laboratory-São Carlos Chemistry Institute, University of São Paulo, São Carlos, BrazilJournal Article20240131Purpose The disposal of solid waste is a serious environmental problem for humanity. Vermicomposting is used as one of the methods for recycling of organic waste, resulting in a humified material of great agronomic potential which promotes carbon sequestration when applied to the soil. The aim of this study was to evaluate the chemical characteristics of vermicomposts from cattle manure (CM), orange peel (OP) and filter cake (FC). Methods Three compost piles were set up, 2:1 OP ? CM, 3:1 FC ? CM and CM. The piles were initially composted for 60 days. Thereafter, earthworms were added to the piles to initiate the vermicomposting process. Results The pH and the organic carbon contents were above the minimum recommended values for organic fertilizers. The N content was below the minimum value but the C/N ratio was in the required range. The C/N values where lower in OP ? CM and FC ? CM than in CM. Further, the N contents of treatments were different with OP ? CM having the highest value. The C/N ratios of the piles were 9.52, 9.62 and 11.03 for OP ? CM, FC ? CM and CM, respectively, and were lower than the maximum recommended value by the Ministry of Agriculture, Livestock and Food (Ministry of Agriculture 2009). Conclusion Thus, co-vermicomposting of filter cake and orange peel with cattle manure has the potential for application sustainable agricultureInternational Journal of Recycling of Organic Waste in Agriculture (IJROWA)Potential of Perionyx excavatus (Perrier) in lignocellulosic solid waste management and quality vermifertilizer production for soil healthVolume 5 (2016)Issue 1, March 201620240131Potential of Perionyx excavatus (Perrier) in lignocellulosic solid waste management and quality vermifertilizer production for soil health10.1007/s40093-016-0118-6ENKasiParthasarathiDepartment of Zoology, Annamalai University, Chidambaram, IndiaMariappanBalamuruganDepartment of Zoology, Annamalai University, Chidambaram, IndiaKottathValappil PrashijaDepartment of Zoology, Annamalai University, Chidambaram, IndiaLakshmananJayanthiDepartment of Zoology, Annamalai University, Chidambaram, IndiaShaikAmeer BashaDepartment of Zoology, Annamalai University, Chidambaram, IndiaJournal Article20240131Purpose The aim of this study was to recycle and reuse the enormously available unutilized lignocellulosic solid organic waste resource, cashew leaf litter (CLL) admixed with various animal dungs, cowdung, sheepdung and horsedung by employing predominantly available indigenous epigeic earthworm—Perionyx excavatus (Perrier, 1872) and produce quality vermifertilizer. Methods Four different combinations of each [(100 % dung alone, 3:1 (75 % dung ? 25 % CLL), 2:2 (50 % dung ? 50 % CLL) and 1:3 (25 % dung ? 75 % CLL)] vermibeds were allowed for vermicomposting process under laboratory conditions. After 60 days, the worm worked vermicompost and worm unworked normal compost were harvested and characterized. The earthworm activity—growth, reproductive performance (cocoon production and hatchling number) and recovery of vermicompost was also studied. Results The obtained results clearly showed that vermicompost from CLL admixed with cowdung at 2:2 ratio had lower pH, organic carbon, C–N ratio, C–P ratio, lignin, cellulose, hemicellulose and phenol content, and higher nitrogen, phosphorus, potassium dehydrogenase and humic acid content than the raw substrates and worm unworked normal compost. In addition, pronounced and better earthworm activity was found in the above combination. Conclusion Through vermitechnology way of producing agronomic valid vermicompost using natural waste resources like CLL and animal dungs can be used as bioorganic fertilizer. These vermiresources have vast and diversified potential for maintaining sustainable soil health, fertility, productivity, waste degradation, soil reclamation, land restoration practices and environment health.International Journal of Recycling of Organic Waste in Agriculture (IJROWA)Effect of animal waste and vegetable compost on production and growth of earthworm (Eisenia fetida) during vermicultureVolume 5 (2016)Issue 1, March 201620240131Effect of animal waste and vegetable compost on production and growth of earthworm (Eisenia fetida) during vermiculture10.1007/s40093-016-0119-5END.S. J. V. VodounnouUniversity of Abomey-Calavi (UAC), Faculty of Science and Techniques (FAST), Laboratory of Research in the Wetlands (LRZH)D.N. S. KpogueAgricultural University of Ketou (UAK)C.E. TossaviUniversity of Abomey-Calavi (UAC), Faculty of Science and Techniques (FAST), Laboratory of Research in the Wetlands (LRZH)G.A. MennsahBenin National Agricultural Research Institute (INRAB)E.D. FiogbeUniversity of Abomey-Calavi (UAC), Faculty of Science and Techniques (FAST), Laboratory of Research in the Wetlands (LRZH)Journal Article20240131Purpose The purpose of the study is to evaluate the effect of different animal product wastes and plant compost on survival and growth of earthworm (Eisenia fetida). Methods The study is realized in a vermibin for a duration of 90 days. The initial physico-chemical parameters (pH, humidity, ash, organic matter, carbon, nitrogen, phosphorus and C:N ratio) were determined in each waste of the different substrates before the study. Six waste products (pig, poultry, rabbit, cattle, sheep and vegetal compost) in triplicate (6 9 3) were used for earthworm production. In each 12-l content vermibin, 2 kg of substrate and 30 g of mature earthworms were sown. Each month, the growth control was realized by earthworms harvest and weighing. The earthworms were put back in substrate in vermibin and 500 g of substrate were completed. The pH was measured every week. Results The physico-chemical parameters (pH, ash, organic matter, carbon, phosphorus, nitrogen and C:N ratio) varied (P.05) according to different substrate. The C:N ratio of different organic substrates are in the range of 8.46 in vegetable compost to 19.39 in pig dung. At the end of study the biomass gain and mortality varied (P.05) according to different treatments. The growth rate varied according to different organic waste (P.05) and ranged between -0.06 ± 0.02 (vegetable compost) and 1.34 ± 0.11 (cow dung). Maximum weight gain and highest growth rate were attained with cow dung. Earthworm biomass gain in different animal wastes is in the order of: cow [pig[rabbit [poultry[sheep [compost vegetable. Conclusion The animal wastes (cow, sheep, pig, rabbit and poultry) and vegetable compost can be used to produce the earthworm. But the growth and produce depend on the biochemical quality of the substrates and the availability and facility for using a nutritive element.