Effects of super absorbent polymer on crop yield, water productivity and soil properties: A global meta-analysis
暂无分享,去创建一个
Huifang Zheng | Mengyao Zheng | Yulong Yin | Z. Cui | X. Ou | Pei-Pei Mei | Haojie Li | Wending Wang
[1] A. Abdallah,et al. Super absorbent polymers mitigate drought stress in corn (Zea mays L.) grown under rainfed conditions , 2021 .
[2] M. Abdalla,et al. Can cropland management practices lower net greenhouse emissions without compromising yield? , 2021, Global change biology.
[3] Melanie D. Jones,et al. Soil organic carbon in irrigated agricultural systems: A meta‐analysis , 2021, Global change biology.
[4] Xiaopeng Gao,et al. A global meta‐analysis of nitrous oxide emission from drip‐irrigated cropping system , 2021, Global change biology.
[5] Yang Yonghui,et al. Effects of long-term super absorbent polymer and organic manure on soil structure and organic carbon distribution in different soil layers , 2021 .
[6] Zenghui Sun,et al. RZWQM Simulation of Soil Moisture and Maize Yield in Newly Cultivated Land with Different Soil Bulk Density , 2021, Communications in Soil Science and Plant Analysis.
[7] Fang Yang,et al. Effects of Polyacrylamide-Based Super Absorbent Polymer and Corn Straw Biochar on the Arid and Semi-Arid Salinized Soil , 2020, Agriculture.
[8] Jiake Li,et al. Effects of a super-absorbent polymer derived from poly-γ-glutamic acid on water infiltration, field water capacity, soil evaporation, and soil water-stable aggregates , 2020 .
[9] Z. Qu,et al. Effects of Super-Absorbent Polymer on Soil Remediation and Crop Growth in Arid and Semi-Arid Areas , 2020 .
[10] Rabaa Yaseen,et al. Effect of super absorbent polymer and bio fertilization on Maize productivity and soil fertility under drought stress conditions , 2020 .
[11] Zhiyu Wang,et al. Effects of controlled drainage on crop yield, drainage water quantity and quality: A meta-analysis , 2020 .
[12] H. Cai,et al. Effects of degradable film mulching on crop yield and water use efficiency in China: A meta-analysis , 2020 .
[13] Z. Cui,et al. Water productivity of irrigated maize production systems in Northern China: A meta-analysis , 2020 .
[14] A. Abdallah. The effect of hydrogel particle size on water retention properties and availability under water stress , 2019, International Soil and Water Conservation Research.
[15] A. Verma,et al. Conditioning effects of biodegradable superabsorbent polymer and vermi-products on media properties and growth of gerbera , 2019, Ecological Engineering.
[16] Koenraad Van Meerbeek,et al. Responses of nitrogen concentrations and pools to multiple environmental change drivers: A meta‐analysis across terrestrial ecosystems , 2019, Global Ecology and Biogeography.
[17] R. Mohtar,et al. Soil aggregates structure-based approach for quantifying the field capacity, permanent wilting point and available water capacity , 2019, Irrigation Science.
[18] Maher Al-Jabari,et al. Recovery of hydrogel from baby diaper wastes and its application for enhancing soil irrigation management. , 2019, Journal of environmental management.
[19] Z. Cui,et al. Irrigation leads to greater maize yield at higher water productivity and lower environmental costs: a global meta-analysis , 2019, Agriculture, Ecosystems & Environment.
[20] A. Tavili,et al. Effects of a super absorbent polymer on soil properties and plant growth for use in land reclamation , 2018, Arid Land Research and Management.
[21] Hao Shen,et al. Effects of biofertilizers and super absorbent polymers on plant growth and soil fertility in the arid mining area of Inner Mongolia, China , 2018, Journal of Mountain Science.
[22] Rong-Ping Li,et al. Superabsorbent polymers influence soil physical properties and increase potato tuber yield in a dry-farming region , 2018, Journal of Soils and Sediments.
[23] F. Armah,et al. Meta-analysis of crop yields of full, deficit, and partial root-zone drying irrigation , 2018 .
[24] Yonghui Yang,et al. Assessment of the responses of soil pore properties to combined soil structure amendments using X-ray computed tomography , 2018, Scientific Reports.
[25] Kyle Frankel Davis,et al. Increased food production and reduced water use through optimized crop distribution , 2017, Nature Geoscience.
[26] Jian Yu,et al. Compensating effect of fulvic acid and super-absorbent polymer on leaf gas exchange and water use efficiency of maize under moderate water deficit conditions , 2017, Plant Growth Regulation.
[27] H. Jaafar,et al. Hydrogel Banding improves Plant Growth, Survival, and water use efficiency in two calcareous Soils† , 2017 .
[28] T. Wei,et al. The effect of super absorbent polymers on soil and water conservation on the terraces of the loess plateau , 2017 .
[29] M A J Huijbregts,et al. The impact of hunting on tropical mammal and bird populations , 2017, Science.
[30] B. Linquist,et al. Rice yields and water use under alternate wetting and drying irrigation: A meta-analysis , 2017 .
[31] S. Loheide,et al. The effects of soil organic matter on soil water retention and plant water use in a meadow of the Sierra Nevada, CA , 2017 .
[32] Kyle A. Emery,et al. Meeting future food demand with current agricultural resources , 2016 .
[33] Zhongyang Li,et al. [Influences of different kinds of water retentive agents on water use efficiency and root mor- phology of winter wheat]. , 2015, Ying yong sheng tai xue bao = The journal of applied ecology.
[34] Zhihua Zhang,et al. Effects of Biochar and Super Absorbent Polymer on Substrate Properties and Water Spinach Growth , 2015 .
[35] H. Fallahi,et al. Effect of Super Absorbent Polymer and Irrigation Deficit on Water Use Efficiency, Growth and Yield of Cotton , 2015 .
[36] N. McLaughlin,et al. Effect of synthetic and natural water absorbing soil amendment soil physical properties under potato production in a semi-arid region , 2015 .
[37] A. Mazen,et al. Growth Responses of Maize Plants Cultivated in Sandy Soil Amended by Different Superabsorbant Hydrogels , 2015 .
[38] G. Robertson,et al. Global metaanalysis of the nonlinear response of soil nitrous oxide (N2O) emissions to fertilizer nitrogen , 2014, Proceedings of the National Academy of Sciences.
[39] A. Eneji,et al. Nitrate retention and physiological adjustment of maize to soil amendment with superabsorbent polymers , 2013 .
[40] A. Hüttermann,et al. Effects of Hydrogels on Tree Seedling Performance in Temperate Soils before and after Water Stress , 2013 .
[41] M. Yarnia,et al. Physiological Response of Forage Sorghum to Polymer under Water Deficit Conditions , 2013 .
[42] Ji‐Zheng He,et al. Effects of super absorbent polymers on soil microbial properties and Chinese cabbage (Brassica chinensis) growth , 2013, Journal of Soils and Sediments.
[43] N. Ramankutty,et al. Closing yield gaps through nutrient and water management , 2012, Nature.
[44] M. Bierkens,et al. Nonsustainable groundwater sustaining irrigation: A global assessment , 2012 .
[45] Yuegao Hu,et al. Effectiveness of a water-saving super-absorbent polymer in soil water conservation for corn (Zea mays L.) based on eco-physiological parameters. , 2011, Journal of the science of food and agriculture.
[46] Y. Wu,et al. Effects of super‐absorbent polymers on the physical and chemical properties of soil following different wetting and drying cycles , 2010 .
[47] Walter C Willett,et al. A Prospective Study on Dietary Acrylamide Intake and the Risk for Breast, Endometrial, and Ovarian Cancers , 2010, Cancer Epidemiology, Biomarkers & Prevention.
[48] Aloys Hüttermann,et al. Application of Superabsorbent Polymers for Improving the Ecological Chemistry of Degraded or Polluted Lands , 2009 .
[49] Lan Wu,et al. Slow-Release Potassium Silicate Fertilizer with the Function of Superabsorbent and Water Retention , 2007 .
[50] Balraj S. Parmar,et al. Performance of a new superabsorbent polymer on seedling and post planting growth and water use patte , 2007 .
[51] Aiqin Wang,et al. Synthesis and characterization of chitosan-g-poly(acrylic acid)/attapulgite superabsorbent composites , 2007 .
[52] S. K. Woche,et al. Soil wettability, aggregate stability, and the decomposition of soil organic matter , 2005 .
[53] Y. Pachepsky,et al. Effect of soil organic carbon on soil water retention , 2003 .
[54] Jessica Gurevitch,et al. THE META‐ANALYSIS OF RESPONSE RATIOS IN EXPERIMENTAL ECOLOGY , 1999 .
[55] G. Smith,et al. Bias in meta-analysis detected by a simple, graphical test , 1997, BMJ.
[56] R. Mikkelsen,et al. Using hydrophilic polymers to control nutrient release , 1994, Fertilizer research.
[57] R. Mikkelsen,et al. Addition of gel-forming hydrophilic polymers to nitrogen fertilizer solutions , 1993, Fertilizer research.
[58] Shiv O. Prasher,et al. Super Absorbent Polymer and Irrigation Regime Effects on Growth and Water Use Efficiency of Container-Grown Cherry Tomatoes , 2018 .
[59] D. Dehkordi. EFFECT OF SUPERABSORBENT POLYMER ON SALT AND DROUGHT RESISTANCE OF EUCALYPTUS GLOBULUS , 2017 .
[60] Yong Bok Lee,et al. Does long-term application of fertilizers enhance the micronutrient density in soil and crop?—Evidence from a field trial conducted on a 47-year-old rice paddy , 2017, Journal of Soils and Sediments.
[61] He Shuang,et al. Effect of Super Absorbent Polymers on Cotton Growth and Yield in Xinjiang , 2012 .
[62] Yuhai Liang,et al. Superabsorbent hydrogels as carriers for the controlled-release of urea: experiments and a mathematical model describing the release rate. , 2009 .
[63] C. Loon. The effect of water stress on potato growth, development, and yield , 2008, American Potato Journal.
[64] Q. Dong. Effects of Water Retaining Agent on Ammonia Volatilization and Nutrient Leaching Loss from N, P and K Fertilizers , 2007 .
[65] Wolfgang Viechtbauer,et al. Accounting for Heterogeneity via Random-Effects Models and Moderator Analyses in Meta-Analysis , 2007 .
[66] Laurence Castle,et al. Determination of acrylamide monomer in hydroponically grown tomato fruits by capillary gas chromatography-mass spectrometry , 1991 .