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Agricultural Sciences

Agricultural Sciences

Agricultural Sciences

ISSN Print: 2156-8553
ISSN Online: 2156-8561
www.scirp.org/journal/as
E-mail: as@scirp.org
"Hydrogel amendment to sandy soil reduces irrigation frequency and improves the biomass of Agrostis stolonifera"
written by Hillary Agaba, Lawrence J. B. Orikiriza, Joseph Obua, John. D. Kabasa, Martin Worbes, Aloys Hüttermann,
published by Agricultural Sciences, Vol.2 No.4, 2011
has been cited by the following article(s):
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[1] IDENTIFICATION OF ORGANIC HYDROGEL CHARACTERISTICS AS A SOIL CONDITIONER ON PHYSIO-CHEMICAL INCEPTISOLS
[2] Hydrogel Application in Urban Farming: Potentials and Limitations—A Review
Polymers, 2022
[3] The Impacts of Bio-Based and Synthetic Hydrogels on Soil Hydraulic Properties: A Review
Polymers, 2022
[4] Effects of Carboxymethyl Cellulose/Nano-Calcium Carbonate Hydrogel Amendment of Loamy Sand Soil for Maize Growth
… Agricultural Science & …, 2022
[5] Outplanting establishment within a contaminated and nonnative invaded semiarid desert riparian corridor
Ecological …, 2022
[6] Biodegradable Superabsorbent Materials
… Materials and Their …, 2022
[7] Preparation of Hydrogel from Agriculture Waste For the Improvement of Soil Irrigation System
The Journal of Solid Waste …, 2022
[8] Synergistic Effects of Biochar and Hydrogel on Growth of Three Herbaceous Species Hydroseeded onto Gold Mine Tailings
Ecological Restoration, 2022
[9] Hidrogel y protección contra mamíferos en plantaciones de restauración ecológica en tierras secas: una evaluación en Prosopis denudans' var. denudans
Boletín de la Sociedad …, 2022
[10] Development of Cellulose-Based Superabsorbent Hydrogels from Coconut Fiber
2022
[11] Prospective of hydrogel for ornamental plants
2022
[12] Eficiência da adubação fosfatada no feijoeiro em função de doses de polímero superabsorvente misturado ao fertilizante
Research, Society and …, 2022
[13] Síntese, caracterização e avaliação de hidrogéis superabsorventes copolimerizados empregados na liberação lenta de fertilizantes
2022
[14] Influence of biological additives on soil moisture dynamics in the context of climate change
RESEARCH FOR RURAL DEVELOPMENT, 2021
[15] EFFECTS OF HYDROGEL ON MOISTURE VOLUME IN SOILS WITH DIFFERENT TEXTURES
La Granja. Revista de …, 2021
[16] Lignin-based Hydrogel for Water Retention in Silt Loam Soil
2021 ASABE Annual …, 2021
[17] Recent advances of pectin-based biomedical application: potential of marine pectin
Journal of Marine Bioscience …, 2021
[18] Sustainable water consumption of rice (Oryza sativa L.) as influenced by superabsorbent polymer in water stressed conditions
2021
[19] Effect of Liquid Organic Fertilizer and Zeolite on Plant Available Water Content of Sand and Growth of Perennial Ryegrass (Lolium perenne)
2021
[20] Temperature limitations in the use of hydrogels on leptosols in a semi-arid region of Brazil
2021
[21] Hydrogel in the seedling growth of Eucalyptus dunnii Maiden under different irrigation management
2021
[22] Hidrogel no crescimento de mudas de Eucalyptus dunnii Maiden Submetidas a diferentes manejos de irrigação
2021
[23] What influences the implementation of natural climate solutions? A systematic map and review of the evidence
Environmental Research …, 2021
[24] Volumen de humedecimiento por la aplicación de hidrogel en suelos de diferentes texturas
2021
[25] The Effect of Super Absorbent Polymer (SAP) Applications on Growth in Anatolian Sweetgum Tree (Liquidambar orientalis Mill.) and Rosemary (Rosmarinus officinalis …
2020
[26] Evaluación de diferentes niveles de hidrogel en el cultivo de pimiento (capsicum annuum l.) para prolongar los periodos de riego
2020
[27] Advanced nanomaterials in agriculture under a changing climate: The way to The future?
2020
[28] Valorization of Colombian fique (Furcraea bedinghausii) for production of cellulose nanofibers and its application in hydrogels
2020
[29] Effect of hydrogels on moisture storage of irrigated automorphic soils in Uzbekistan
2020
[30] Application of Super Absorbent Polymer and Plant Mucilage Improved Essential Oil Quantity and Quality of Ocimum basilicum var. Keshkeni Luvelou
2020
[31] Starch‐based biodegradable hydrogel as seed coating for corn to improve early growth under water shortage
2019
[32] Textile: Substrates Modification by Novel Polymers
2019
[33] Response of water-soluble salt accumulation in weathered gneiss spoil substrate to the addition of superabsorbent polymer under a semiarid climate
2019
[34] Surface tension, rheology and hydrophobicity of rhizodeposits and seed mucilage influence soil water retention and hysteresis
2019
[35] Ecotoxicological Properties of Tulipalin A-Based Superabsorbents versus Conventional Superabsorbent Hydrogels
2019
[36] Evaluating the effect of superabsorbents on soil moisture and physiological characteristics of Lolium perenne L.'Chadegan'and Festuca arundinacea
Desert, 2019
[37] Biomassa de mudas de pinha sob irrigações com água salina em substrato com polímero
Revista Brasileira de …, 2018
[38] Eficiencia del agua de riego mediante la aplicación de hidrogel en Capsicum annuum en suelo Fluvisol
2018
[39] Doses e métodos de aplicação de polímeros superabsorventes na emergência e no crescimento de plântulas de sorgo
2018
[40] Encyclopedia of Polymer Applications, 3 Volume Set
2018
[41] Natural and Synthetic Hydrophilic Polymers Enhance Salt and Drought Tolerance of Metasequoia glyptostroboides Hu and WCCheng Seedlings
Forests, 2018
[42] Hydrogel for improving water use efficiency of Capsicum annuum crops in Fluvisol soil
Revista de la …, 2018
[43] Ficha catalográfica preparada pela Biblioteca Central da
2018
[44] A peel-able onion inspired multi-membrane chitosan hydrogel with reversible sol-gel transition, on-demanding dissolution for intestine-selective controlled release …
2018
[45] Applications of Biopolymeric Gels in Agricultural Sector
Polymer Gels, 2018
[46] Recent Advances in Edible Polymer Based Hydrogels as a Sustainable Alternative to Conventional Polymers
Journal of Agricultural and Food Chemistry, 2018
[47] Natural and Synthetic Hydrophilic Polymers Enhance Salt and Drought Tolerance of Metasequoia glyptostroboides Hu and WC Cheng Seedlings
Forests, 2018
[48] Biomass of sugar-apple seedlings under saline water irrigation in substrate with polymer
2018
[49] Efecto de la Adición de Nanofibras de Fique Sobre Propiedades Mecánicas en Hidrogeles Base Acrílica para Aplicaciones Agrícolas
Maestría thesis, 2018
[50] THE INFLUENCE OF BIOLOGICAL ADDITIVES ON THE MOISTURE RETENTION OF SOIL
2017
[51] Natural fibers for hydrogels production and their applications in agriculture
2017
[52] Synergistic Effects of Bacillus amyloliquefaciens (GB03) and Water Retaining Agent on Drought Tolerance of Perennial Ryegrass
International Journal of Molecular Sciences, 2017
[53] FREQUÊNCIA DE IRRIGAÇÃO COM ÁGUA SALINA NA QUALIDADE DE MUDAS DE PINHA EM SUBSTRATO COM POLÍMERO
2017
[54] BIOMASSA EM MUDAS DE PINHA SOB FREQUÊNCIA DE IRRIGAÇÃO COM ÁGUA SALINA EM SUBSTRATO COM POLÍMERO
2017
[55] Biohydrogel induced soil–water interactions: how to untangle the gel effect? A review
Journal of Plant Nutrition and Soil Science, 2017
[56] Обоснование межоперационных запасов сырья на лесоэнергетических терминалах с учетом загрузки основного технологического оборудования
Труды БГТУ. Серия 1: Лесное хозяйство …, 2017
[57] Effect of fertilization through geocomposite on nutritional status of Hosta'halcyon'plants grown in containers.
2016
[58] The effect of aquasorb on some morpho-physiological parameters of the plants under the pedoclimatical conditions from Moldavian Plateau
2016
[59] THE EFFECT OF AQUASORB ON SOME SOIL PHYSICAL PROPERTIES UNDER PEDOCLIMATICAL CONDITIONS OF THE MOLDAVIAN PLAIN
2016
[60] THE EFFECT OF AQUASORB ON SOME MORPHO-PHYSIOLOGICAL PARAMETERS OF THE PLANTS UNDER THE PEDOCLIMATICAL CONDITIONS FROM …
2016
[61] Effects of a hydrogel on the cambic chernozem soil's hydrophysic indicators and plant morphophysiological parameters
Geoderma, 2016
[62] EFEITO DO HIDROGEL NO CRESCIMENTO DE MUDAS DE Eucalyptus benthamii SUBMETIDAS A DIFERENTES FREQUÊNCIAS DE IRRIGAÇÃO
2016
[63] Growth characteristics of Artemisia sieberi influenced by super absorbent polymers in texturally different soils under water stress condition
Journal of Biomolecular Structure and Dynamics, 2016
[64] Hidrogel como mitigador de estrés hídrico
Revista Iberoamericana de Ciencias, 2016
[65] THE EFFECT OF AQUASORB ON SOME SOIL PHYSICAL PROPERTIES UNDER PEDOCLIMATICAL CONDITIONS OF THE MOLDAVIAN PLAIN.
Agronomy Series of Scientific Research / Lucrari Stiintifice Seria Agronomie, 2016
[66] THE EFFECT OF AQUASORB ON SOME MORPHO-PHYSIOLOGICAL PARAMETERS OF THE PLANTS UNDER THE PEDOCLIMATICAL CONDITIONS FROM …
Agronomy Series of Scientific Research / Lucrari Stiintifice Seria Agronomie, 2016
[67] Effects of super absorbent polymer and Azotobacter vinelandii on growth and survival of Ficus benjamina L. Seedlings under drought stress conditions
2015
[68] Superabsorbent hydrogels based on polysaccharides for application in agriculture as soil conditioner and nutrient carrier: A review
European Polymer Journal, 2015
[69] Classification, processing and application of hydrogels: A review
Materials Science and Engineering: C, 2015
[70] Biodegradation of hydrogels from oxyethylated lignins in model soils
ACS Sustainable Chemistry & Engineering, 2015
[71] Hydrogel efficiency and physiological responses of seedless citrus cultivars seedlings under water deficit
Pesquisa Agropecuária Tropical?, 2014
[72] Eficiência do hidrogel e respostas fisiológicas de mudas de cultivares apirênicas de citros sob défice hídrico
Pesquisa Agropecuária Tropical (Agricultural Research in the Tropics), 2014
[73] Biodegradability of a polyacrylate superabsorbent in agricultural soil
Environmental Science and Pollution Research, Springer, 2014
[74] Uso de un polímero hidrófilo en chile Anaheim (Capsicum annuum L.) bajo condiciones de invernadero
Idesia (Arica), 2013
[75] Water-retention additives increase plant available water in green roof substrates
Ecological Engineering, Elsevier, 2013
[76] Micron-size metal-binding hydrogel particles improve germination and radicle elongation of Australian metallophyte grasses in mine waste rock and tailings
Journal of hazardous materials?, 2013
[77] HYDROGELS: BOON TO ARID FLORICULTURE
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