use of cross-linked polyacrylamide in agriculture
use of cross-linked polyacrylamide in agriculture
use of cross-linked polyacrylamide in agriculture
use of cross-linked polyacrylamide in agriculture
use of cross-linked polyacrylamide in agriculture
use of cross-linked polyacrylamide in agriculture for increasing yield or reducing irrigation

USE OF CROSS-LINKED POLYACRYLAMIDE IN AGRICULTURE FOR INCREASING YIELD OR REDUCING IRRIGATION

Cross-linked polyacrylamide is shown to carry out its earlier promise of cost-effective reduction of watering requirements for irrigated crops and increase of yields with the same water application. Researchers and farmers are slowly sorting out the proper application rates and methods by time-consuming trial and error.

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polyacrylamide in agriculture and environmental land management

Polyacrylamide in Agriculture and Environmental Land Management

Add to Mendeley https://doi.org/10.1016/S0065-2113 (04)92002-0 Get rights and content Anionic polyacrylamide (PAM) has been sold since 1995 to reduce irrigation©induced erosion and enhance infiltration.

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long©term water retention increases in degraded soils amended with cross©linked polyacrylamide | agronomy journal

Long©term water retention increases in degraded soils amended with cross©linked polyacrylamide | Agronomy Journal

Abstract Cross-linked polymer hydrogels, polyacrylamide co-polymer (XPAM), and K-polyacrylate (XPAA) increase soil water availability under drought, but their long-term effects are unknown despite the importance of such knowledge in assessing economic feasibility.

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superabsorbent polymers as a soil amendment for increasing agriculture production with reducing water losses under water stress condition

Superabsorbent Polymers as a Soil Amendment for Increasing Agriculture Production with Reducing Water Losses under Water Stress Condition

1. Introduction In agriculture, water utilization is 85% compared to industrial (15%) and domestic (5%) use. Thus, emphasis should be given to water conservation, with scarcity affecting crop productivity. There is a need for efficient water resources for reducing water losses [ 1, 2 ].

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inhibiting water infiltration into soils with cross-linked polyacrylamide: seepage reduction for irrigated agriculture - acsess

Inhibiting Water Infiltration into Soils with Cross-linked Polyacrylamide: Seepage Reduction for Irrigated Agriculture - ACSESS

This study evaluated the use of cross-linked, anionic, polyacrylamide hydrogel (XPAM), a water-absorbing, swellable polymer solid, for reducing infiltration and seepage losses though soil.

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agronomy | free full-text | assessment of the possibilities of using cross-linked polyacrylamide (agro hydrogel) and preparations with

Agronomy | Free Full-Text | Assessment of the Possibilities of Using Cross-Linked Polyacrylamide (Agro Hydrogel) and Preparations with

Superabsorbents used in agriculture usually come from a group of cross-linked polyacrylamides or cross-linked acrylamide-acrylate copolymers [11,12,13]. They can absorb large amounts of water and additionally increase the soil¡¯s water capacity while preventing its loss by infiltration and evaporation [ 13 ].

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(pdf) inhibiting water infiltration into soils with cross-linked polyacrylamide: seepage reduction for irrigated agriculture

(PDF) Inhibiting Water Infiltration into Soils with Cross-linked Polyacrylamide: Seepage Reduction for Irrigated Agriculture

This study evaluated the use of cross-linked, anionic, polyacrylamide hydrogel (XPAM), a water-absorbing, swellable polymer solid, for reducing infiltration and seepage losses though soil.

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hydrogels: a boon for increasing agricultural - jstor home

Hydrogels: a boon for increasing agricultural - JSTOR Home

Hydrogel may prove as a practically convenient and sible option to achieve the goal of agricultural productivity under conditions of water can be easily applied directly in the soil at the time of sowing of field crops and in medium for nursery plantation.

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complementary-dna-strand cross-linked polyacrylamide hydrogels | macromolecules - acs publications

Complementary-DNA-Strand Cross-Linked Polyacrylamide Hydrogels | Macromolecules - ACS Publications

Abstract We examine networks of complementary-DNA-strand cross-linked polyacrylamide, with and without covalent N, N ¡ä-methylene (bis)acrylamide cross-linking, using rheological time¨Ctemperature superposition (TTS) to ascertain how temperature and composition influence the microstructure.

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characterization and possible agricultural application of polyacrylamide/sodium alginate crosslinked hydrogels prepared by ionizing ...

Characterization and Possible Agricultural Application of Polyacrylamide/Sodium Alginate Crosslinked Hydrogels Prepared by Ionizing ...

and Possible Agricultural Application of Polyacrylamide/Sodium Alginate Crosslinked Hydrogels Prepared by ... CaCl2 concentration (0.2-0.4 % w/v), and cross-linking time (10-30 min). Statistical ...

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