Water–saving irrigation combined with N–loaded clinoptilolite enhances nutrient yield, and water productivity by improving rice root characteristics: A combined PCA–SEM analysis

Nitrogen (N) –loaded clinoptilolite is renowned for its high–water retention and nutrient supplementation properties, which benefit crop growth. However, its combined effects with water–saving irrigation regime on N mineralization, root system characteristics, and nutrient yield, particularly their...

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Published in:Agricultural water management 2025-02, Vol.307, p.109203, Article 109203
Main Authors: Sun, Yang, Wu, Qi, Chi, Daocai, Chen, Hongyang, Zhu, Suyun, Liu, Qingliang
Format: Article
Language:English
Subjects:
amylose
environmental impact
equations
irrigated farming
irrigation management
mineralization
Mineralized nitrogen
nitrogen
Nutrient yield, Nutrient water productivity, Root characteristics
principal component analysis
rice
root systems
surface area
Water conservation
water utilization
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Wu, Qi
Chi, Daocai
Chen, Hongyang
Zhu, Suyun
Liu, Qingliang
description Nitrogen (N) –loaded clinoptilolite is renowned for its high–water retention and nutrient supplementation properties, which benefit crop growth. However, its combined effects with water–saving irrigation regime on N mineralization, root system characteristics, and nutrient yield, particularly their regulatory pathways, remain underexplored. This two–year split–plot experiment evaluated the impact of two irrigation regimes (ICF: continuous flooding irrigation; IAWD: alternate wet–dry irrigation) and two rates of N–loaded clinoptilolite (NZ0: no N–loaded clinoptilolite; NZ10: 10 t·ha–1) on root characteristics, mineralized N, nutrient yield, and water productivity. We employed principal component analysis (PCA) and structural equation modeling (SEM) to analyze the interactions among the factors. The IAWDNZ10 treatment showed the greatest water–saving potential, increasing the irrigated area by 0.29–fold compared to ICFNZ0. N–loaded clinoptilolite under IAWD increased root surface area by 12.6 %, average root diameter by 14.2 %, and root volume by 13.8 %. Additionally, IAWD increased mineralized N by 22.4 %, while N–loaded clinoptilolite further boosted it by 34.7 %. Root characteristics (r = 0.78) were crucial mediators in the effect of N–loaded clinoptilolite on protein (r = 0.64) and amylose nutritional yield (r = 0.68). Water usage influenced protein (r = -0.93) and amylose nutritional water productivity (r =-0.67) indirectly via chalky rice rate (r =0.90). In summary, integrating N–loaded clinoptilolite with the IAWD regime not only enhanced rice root characteristics and mineralized N but also led to substantial increases in nutrient yield and water productivity. These findings underscore the potential for N–loaded clinoptilolite to be adopted as a key component in sustainable agricultural practices, offering a pathway to optimize resource use, reduce environmental impact, and improve crop productivity in water–limited regions. •Root characteristics are the most direct factor affecting nutrient yield.•Chalky rice rate is the most direct factor affecting nutrient water productivity.•N–loaded clinoptilolite primarily positively affected nutrient yield.•Water usage mainly negatively affected nutrient water productivity.•N–loaded clinoptilolite indirectly boosted nutrient water productivity by enhancing mineralized N.
doi_str_mv 10.1016/j.agwat.2024.109203
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However, its combined effects with water–saving irrigation regime on N mineralization, root system characteristics, and nutrient yield, particularly their regulatory pathways, remain underexplored. This two–year split–plot experiment evaluated the impact of two irrigation regimes (ICF: continuous flooding irrigation; IAWD: alternate wet–dry irrigation) and two rates of N–loaded clinoptilolite (NZ0: no N–loaded clinoptilolite; NZ10: 10 t·ha–1) on root characteristics, mineralized N, nutrient yield, and water productivity. We employed principal component analysis (PCA) and structural equation modeling (SEM) to analyze the interactions among the factors. The IAWDNZ10 treatment showed the greatest water–saving potential, increasing the irrigated area by 0.29–fold compared to ICFNZ0. N–loaded clinoptilolite under IAWD increased root surface area by 12.6 %, average root diameter by 14.2 %, and root volume by 13.8 %. Additionally, IAWD increased mineralized N by 22.4 %, while N–loaded clinoptilolite further boosted it by 34.7 %. Root characteristics (r = 0.78) were crucial mediators in the effect of N–loaded clinoptilolite on protein (r = 0.64) and amylose nutritional yield (r = 0.68). Water usage influenced protein (r = -0.93) and amylose nutritional water productivity (r =-0.67) indirectly via chalky rice rate (r =0.90). In summary, integrating N–loaded clinoptilolite with the IAWD regime not only enhanced rice root characteristics and mineralized N but also led to substantial increases in nutrient yield and water productivity. 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Additionally, IAWD increased mineralized N by 22.4 %, while N–loaded clinoptilolite further boosted it by 34.7 %. Root characteristics (r = 0.78) were crucial mediators in the effect of N–loaded clinoptilolite on protein (r = 0.64) and amylose nutritional yield (r = 0.68). Water usage influenced protein (r = -0.93) and amylose nutritional water productivity (r =-0.67) indirectly via chalky rice rate (r =0.90). In summary, integrating N–loaded clinoptilolite with the IAWD regime not only enhanced rice root characteristics and mineralized N but also led to substantial increases in nutrient yield and water productivity. 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However, its combined effects with water–saving irrigation regime on N mineralization, root system characteristics, and nutrient yield, particularly their regulatory pathways, remain underexplored. This two–year split–plot experiment evaluated the impact of two irrigation regimes (ICF: continuous flooding irrigation; IAWD: alternate wet–dry irrigation) and two rates of N–loaded clinoptilolite (NZ0: no N–loaded clinoptilolite; NZ10: 10 t·ha–1) on root characteristics, mineralized N, nutrient yield, and water productivity. We employed principal component analysis (PCA) and structural equation modeling (SEM) to analyze the interactions among the factors. The IAWDNZ10 treatment showed the greatest water–saving potential, increasing the irrigated area by 0.29–fold compared to ICFNZ0. N–loaded clinoptilolite under IAWD increased root surface area by 12.6 %, average root diameter by 14.2 %, and root volume by 13.8 %. Additionally, IAWD increased mineralized N by 22.4 %, while N–loaded clinoptilolite further boosted it by 34.7 %. Root characteristics (r = 0.78) were crucial mediators in the effect of N–loaded clinoptilolite on protein (r = 0.64) and amylose nutritional yield (r = 0.68). Water usage influenced protein (r = -0.93) and amylose nutritional water productivity (r =-0.67) indirectly via chalky rice rate (r =0.90). In summary, integrating N–loaded clinoptilolite with the IAWD regime not only enhanced rice root characteristics and mineralized N but also led to substantial increases in nutrient yield and water productivity. 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source ScienceDirect Additional Titles; Elsevier
subjects amylose
environmental impact
equations
irrigated farming
irrigation management
mineralization
Mineralized nitrogen
nitrogen
Nutrient yield, Nutrient water productivity, Root characteristics
principal component analysis
rice
root systems
surface area
Water conservation
water utilization
title Water–saving irrigation combined with N–loaded clinoptilolite enhances nutrient yield, and water productivity by improving rice root characteristics: A combined PCA–SEM analysis
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