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Exploring N fertilizer reduction and organic material addition practices: An examination of their alleviating effect on the nematode food web in cropland

Kou, Xinchang ; Zhang, Xiaoke ; Bai, Wei ; [et al.]

Wiley ; 2020

In: Land Degradation & Development Vol. 31, No. 18 ( 2020-12), p. 2952-2961

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In: Land Degradation & Development, Wiley, Vol. 31, No. 18 ( 2020-12), p. 2952-2961

Abstract: Excessive nitrogen (N) fertilization in croplands results in environmental problems, such as soil quality deterioration, water contamination, and biodiversity losses, which threaten the sustainable development of soil ecosystems. The soil nematode food web plays key roles in soil organic matter decomposition and nutrient cycling, and thus the sustainable development of cropland ecosystems. However, how the negative impact from the excessive N fertilization on the nematode food web is effectively alleviated remains uncertain. This study aimed to explore the effects of different N fertilization management practices (N fertilizer reduction or organic material addition) on alleviating the negative effects on the nematode food web in croplands. Four treatments/ management practices were examined: conventional fertilization (N control), N fertilizer reduction of 100% (N 0 ), N fertilizer reduction of 50% (N 1 ), and conventional fertilization with organic material addition (N +S ). The results showed that the abundance of nematodes and microbial phospholipid fatty acids (PLFAs) both increased in the treatments of N 0 , N 1 , and N +S compared with N. Besides, N +S also increased the nematodes' biomass, diversity, and metabolic footprint, which correspondingly strengthened the nutrient turnover through the nematode food web. Overall, two management practices 1)N fertilizer reduction and 2) organic material addition, differ in the abiotic or biotic process in alleviating the negative effects of N fertilization on the nematode food web. The reducing N fertilization can directly alleviate the negative effect of fertilizer on soil acidification and then benefit for the growth of microorganisms and nematodes. The exogenous carbon input from organic material addition might promote carbon flowing and immobilization into nematode food web, and ultimately enhance the stability of soil food web.

Type of Medium: Online Resource

ISSN: 1085-3278 , 1099-145X

URL: Issue

URL: Article

DOI: 10.1002/ldr.v31.18

DOI: 10.1002/ldr.3685

Language: English

Publisher: Wiley

Publication Date: 2020

detail.hit.zdb_id: 1319202-4

detail.hit.zdb_id: 2021787-0

SSG: 14

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Combating fraudulent returns using blockchain technology

Liu, Zhao ; Cai, Xiaoqiang ; Niu, Wenju ; [et al.]

Wiley ; 2024

In: International Transactions in Operational Research Vol. 31, No. 6 ( 2024-11), p. 3776-3807

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In: International Transactions in Operational Research, Wiley, Vol. 31, No. 6 ( 2024-11), p. 3776-3807

Abstract: Fraudulent returns have become increasingly frequent in the development of online retail platforms, leading to huge losses for retailers. A blockchain‐based system can help eliminate this problem primarily because the data stored in a blockchain network cannot be modified. In this paper, we study the impact of blockchain technology that aims to eliminate fraudulent return behavior on retailers and their upstream suppliers. We develop a game‐theoretic model that comprises a supplier, a retailer, and customers and analyze the equilibrium outcomes. The results show that the retailer would (not) adopt blockchain technology if the efficiency of the supplier's investment in the innovation of its products is high (low). Moreover, if the retailer's loss from the return is low (high), the adoption of blockchain technology decreases (increases) the supplier's investment and the wholesale and retail prices. In terms of its effect on profitability, we reveal that if the fraudulent return losses are high, using blockchain technology always benefits the supplier; otherwise, it increases retailer profitability and supply chain performance but may make the supplier suffer losses in profits. Interestingly, the retailer would adopt blockchain technology to ensure profitability in situations where the number of customers without fraudulent returns and the intensity of losses are low; however, this weakens supplier profitability and meanwhile reduces supply chain performance.

Type of Medium: Online Resource

ISSN: 0969-6016 , 1475-3995

URL: Issue

URL: Article

DOI: 10.1111/itor.v31.6

DOI: 10.1111/itor.13306

RVK:

QA 10000

Language: English

Publisher: Wiley

Publication Date: 2024

detail.hit.zdb_id: 1213721-2

detail.hit.zdb_id: 2019815-2

SSG: 3,2

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The spatial patterns of litter turnover time in Chinese terrestrial ecosystems

Cai, Andong ; Chang, Naijie ; Zhang, Wenju ; [et al.]

Wiley ; 2020

In: European Journal of Soil Science Vol. 71, No. 5 ( 2020-09), p. 856-867

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In: European Journal of Soil Science, Wiley, Vol. 71, No. 5 ( 2020-09), p. 856-867

Abstract: The feedback between plant, soil and climate is partly determined by plant litter turnover time, which is influenced by climate, litter quality and soil properties. However, the spatial patterns of litter turnover time and its interrelation with these variables are rarely quantified. With a database of 1,378 litter turnover times and key associated climate, litter quality and soil properties (total of 20 variables), this study investigated the driving factors and spatial patterns of litter turnover time across Chinese terrestrial ecosystems. The mean litter turnover time was the longest in forest ecosystems, followed by that in grassland and cropland ecosystems. The litter turnover time varied significantly depending on the litter quality and climate zone, and increased exponentially as latitude increased. Mean annual temperature (MAT) and mean annual precipitation (MAP) could accurately predict litter turnover time via negative exponential equations. Among these variables, MAT had the greatest influence on litter turnover time, which accounted for 37.4% of the variation, followed by litter quality (ecosystem types, litter types, C:N of litter and lignin content; 33.4%) and soil properties (sand content, soil pH and soil organic carbon (SOC); 29.2%) based on a boosted regression tree (BRT) model. Path analysis identified that MAT negatively affected litter turnover time both directly and indirectly through regulating soil properties and litter quality, which positively and directly affected litter turnover time. Finally, the spatial patterns of litter turnover time were obtained with a regional dataset of ecosystem types, MAT, sand content, soil pH and SOC as BRT model drivers. Overall, our results suggest that climate variables have contrasting effects on litter turnover time and could mediate the impact on litter turnover time by litter quality and soil properties. These results highlight important implications for climate‐smart soil management and can be used to create reliable model predictions. Highlights We explored the driving factors and spatial patterns of litter turnover time in various ecosystems Accurate estimates of litter turnover time were obtained from dataset from 1,378 experimental sites Litter turnover time exponentially increased as latitude increased Climate‐mediated litter quality and soil properties controlled the litter turnover time

Type of Medium: Online Resource

ISSN: 1351-0754 , 1365-2389

URL: Issue

URL: Article

DOI: 10.1111/ejss.v71.5

DOI: 10.1111/ejss.12922

Language: English

Publisher: Wiley

Publication Date: 2020

detail.hit.zdb_id: 1191614-X

detail.hit.zdb_id: 2020243-X

SSG: 13

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