Corrigendum to “Effects of a PLA/PBAT biodegradable film mulch as a replacement of polyethylene film and their residues on crop and soil environment” [Agric. Water Manage. 255 (2021) 107053]

A field trial regarding the effect of different types of soil cover on the characteristics of bell pepper (Capsicum annuum L. Yolo Wonder) fruit and incidence of weeds was conducted at the facilities of the Department of Agrarian Sciences (UNITAU), Taubaté -SP at 23º02'34" S and 45º31'02" W, with an average elevation of 577 m in a medium-textured dystrophic Yellow Red Latosol. The experimental design was a randomized block with five replicates and four treatments: 1) coat of rice husk (CRH); 2) black polyethylene film (BPF); 3) black biodegradable film (BBF); and 4) soil without cover (SWC), with five replicates. The treatments were distributed in flower beds with 1.2 m wide, 0.3 m high and 10 m long. Drip irrigation was placed on the surface of the beds, with a pipe line (dripping distance 0.4 m, measured flow rate of 1.67 L.h-1, service pressure of 1.6 kPa). Harvesting occurred 90 days after planting the seedlings, and the length, number and weight of the bell pepper fruits were determined. The weed plants in the plot were evaluated in five samples of 0.25 m2 randomly obtained per plot. The coverings had a significant effect on fruit length, number and weight, and black polyethylene film and biodegradable film obtained better results, compared to the coat of rice husk and soil without cover. In the coverings with polyethylene film and biodegradable film, the fruit length was above 12 cm, the number of fruit exceeded 10 fruit per plant and the weight of the fruit was superior to 1 kg per plant. Polyethylene film and biodegradable film reduced weed infestation by 75.4% on average when compared to soil without cover. It can be concluded that the biodegradable film presented the same efficiency as the polyethylene film as regards the productivity of the pepper crop and the reduction of weeds.

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An alternative to polyethylene film mulch: Field evaluation of biodegradable film mulch on winter potato in the south of China

Agronomy Journal ◽

10.1002/agj2.20413 ◽

2020 ◽

Vol 112 (6) ◽

pp. 4752-4764

Author(s):

Chong Yang ◽

Xuhua Gao ◽

Yaozhu Huang ◽

Dong Xie

Keyword(s):

Field Evaluation ◽

Polyethylene Film ◽

The South ◽

Biodegradable Film

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Empirical model approach for the evaluation of pH and conductivity on pollutant diffusion in soil environment

10.31221/osf.io/zndpg ◽

2019 ◽

Author(s):

Chem Int

Keyword(s):

Mathematical Model ◽

Quadratic Equation ◽

Diffusivity Coefficient ◽

Soil Environment ◽

Irreversible Reaction ◽

Chemical Pollutant ◽

The Mathematical Model ◽

Coefficient Of Diffusion ◽

Level Of Agreement ◽

Model Approach

This work is aimed at developing a mathematical model equation that can be used to predict the fate of contaminant in the soil environment. The mathematical model was developed based on the fundamental laws of conservation and the equation of continuity given asand was resolved to obtain a quadratic equation of the form C(X) = DX2+vX+f. The developed equation was then used to fit the experimental data that were obtained from the Physio-chemical analysis of the soil samples which were obtained at various depths; within the vicinity of the H & H Asphalt plant Company, located at Enito 3 in Ahoada West L.G.A, River State, Nigeria. The Experimental and Model results obtained from the Calculation and Simulation of the developed models were compared numerically and graphically as presented in this work. It was observed that there is reasonable level of agreement between the three results. The polynomial of the curve was established to ascertain the validity of the model; this was done for all the parameters that were analyzed. From the findings the model developed can be used to predict the concentration of a chemical pollutant at various depths. The reliability of the model developed was established giving the fact that through this quadratic equation the diffusivity (coefficient of diffusion), the water velocity and the irreversible reaction decay rate could be determined.

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USING ELECTROSTATIC DISCHARGE FOR COATING SURFACE OF POLYETHYLENE FILM WITH CHITOSAN SUBSTANCE TO EXTEND THE CUCUMBER SHELF LIFE

Misr Journal of Agricultural Engineering ◽

10.21608/mjae.2016.98012 ◽

2016 ◽

Vol 33 (2) ◽

pp. 659-678

Author(s):

A. M. Elsbaay ◽

E. M. Elsebaie

Keyword(s):

Shelf Life ◽

Electrostatic Discharge ◽

Polyethylene Film ◽

Coating Surface

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Changes in Melting Behaviors of a Residual Catalyst-Cum-UV Degraded Polyethylene Film: A New Insight Through Experiment and Modeling

Current Catalysis ◽

10.2174/2211545511201010002 ◽

2012 ◽

Vol 1 (1) ◽

pp. 2-13 ◽

Cited By ~ 2

Author(s):

Muhammad Atiqullah ◽

Ikram Hussain ◽

Mamdouh Al-Harthi ◽

Masiullah Jabarulla Khan ◽

Anwar Hossaen ◽

...

Keyword(s):

Polyethylene Film ◽

Residual Catalyst

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Detection of viral antigens by solid phase radioimmunoassay on polyethylene film

Journal of Virological Methods ◽

10.1016/0166-0934(86)90069-8 ◽

1986 ◽

Vol 13 (1) ◽

pp. 27-33 ◽

Cited By ~ 1

Author(s):

E.N. Prokudina ◽

N.P. Semenova ◽

V.M. Zhdanov

Keyword(s):

Solid Phase ◽

Polyethylene Film ◽

Viral Antigens ◽

Solid Phase Radioimmunoassay

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The Role of Biochar in Regulating the Carbon, Phosphorus, and Nitrogen Cycles Exemplified by Soil Systems

Sustainability ◽

10.3390/su13105612 ◽

2021 ◽

Vol 13 (10) ◽

pp. 5612

Author(s):

Shu-Yuan Pan ◽

Cheng-Di Dong ◽

Jenn-Feng Su ◽

Po-Yen Wang ◽

Chiu-Wen Chen ◽

...

Keyword(s):

Environmental Sustainability ◽

Soil Amendment ◽

Environmental Control ◽

Current Knowledge ◽

Soil Environment ◽

Nitrogen And Phosphorus ◽

Soil Systems ◽

P Mineralization ◽

Rich Material ◽

Pyrolysis Of Biomass

Biochar is a carbon-rich material prepared from the pyrolysis of biomass under various conditions. Recently, biochar drew great attention due to its promising potential in climate change mitigation, soil amendment, and environmental control. Obviously, biochar can be a beneficial soil amendment in several ways including preventing nutrients loss due to leaching, increasing N and P mineralization, and enabling the microbial mediation of N2O and CO2 emissions. However, there are also conflicting reports on biochar effects, such as water logging and weathering induced change of surface properties that ultimately affects microbial growth and soil fertility. Despite the voluminous reports on soil and biochar properties, few studies have systematically addressed the effects of biochar on the sequestration of carbon, nitrogen, and phosphorus in soils. Information on microbially-mediated transformation of carbon (C), nitrogen (N), and phosphorus (P) species in the soil environment remains relatively uncertain. A systematic documentation of how biochar influences the fate and transport of carbon, phosphorus, and nitrogen in soil is crucial to promoting biochar applications toward environmental sustainability. This report first provides an overview on the adsorption of carbon, phosphorus, and nitrogen species on biochar, particularly in soil systems. Then, the biochar-mediated transformation of organic species, and the transport of carbon, nitrogen, and phosphorus in soil systems are discussed. This review also reports on the weathering process of biochar and implications in the soil environment. Lastly, the current knowledge gaps and priority research directions for the biochar-amended systems in the future are assessed. This review focuses on literatures published in the past decade (2009–2021) on the adsorption, degradation, transport, weathering, and transformation of C, N, and P species in soil systems with respect to biochar applications.

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