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Effect of fertigation frequency on soil nitrogen distribution and tomato yield under alternate partial root-zone drip irrigation 被引量:2
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作者 FENG Xu-yu PU Jing-xuan +5 位作者 LIU Hai-jun WANG Dan LIU Yu-hang QIAO Shu-ting LEI Tao LIU Rong-hao 《Journal of Integrative Agriculture》 SCIE CAS CSCD 2023年第3期897-907,共11页
Alternate partial root-zone drip fertigation (ADF) is a combination of alternating irrigation and drip fertigation,with the potential to save water and increase nitrogen (N) fertilizer efficiency.A 2-year greenhouse e... Alternate partial root-zone drip fertigation (ADF) is a combination of alternating irrigation and drip fertigation,with the potential to save water and increase nitrogen (N) fertilizer efficiency.A 2-year greenhouse experiment was conducted to evaluate the effect of different fertigation frequencies on the distribution of soil moisture and nutrients and tomato yield under ADF.The treatments included three ADF frequencies with intervals of 3 days (F3),6 days (F6) and 12 days (F12),and conventional drip fertigation as a control (CK),which was fertilized once every 6 days.For the ADF treatments,two drip tapes were placed 10 cm away on each side of the tomato row,and alternate drip irrigation was realized using a manual valve on the distribution tapes.For the CK treatment,a drip tape was located close to the roots of the tomato plants.The total N application rate of all treatments was 180 kg ha^(-1).The total irrigation amounts applied to the CK treatment were450.6 and 446.1 mm in 2019 and 2020,respectively;and the irrigation amounts applied to the ADF treatments were 60%of those of the CK treatment.The F3 treatment resulted in water and N being distributed mainly in the 0–40-cm soil layer with less water and N being distributed in the 40–60-cm soil layer.The F6 treatment led to 21.0 and 29.0%higher 2-year average concentration of mineral N in the 0–20 and 20–40-cm soil layer,respectively and a 23.0%lower N concentration in the 40–60-cm soil layer than in the CK treatment.The 2-year average tomato yields of the F3,F6,F12,and CK treatments were 107.5,102.6,87.2,and 98.7 t ha^(-1),respectively.The tomato yield of F3 was significantly higher (23.3%) than that in the F12 treatment,whereas there was no significant difference between the F3 and F6 treatment.The F6 treatment resulted in yield similar to the CK treatment,indicating that ADF could maintain tomato yield with a 40%saving in water use.Based on the distribution of water and N,and tomato yield,a fertigation frequency of 6 days under ADF should be considered as a water-saving strategy for greenhouse tomato production. 展开更多
关键词 alternate partial root-zone irrigation drip fertigation soil water soil mineral content tomato yield
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Root Morphology, Plant Growth, Nitrate Accumulation and Nitrogen Metabolism of Temperate Lettuce Grown in the Tropics with Elevated Root-Zone CO2 at Different Root-Zone Temperatures 被引量:3
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作者 Jie He Lin Qin Sing Kong Lee 《American Journal of Plant Sciences》 2016年第14期1821-1833,共14页
This paper investigated the effects of root-zone (RZ) CO<sub>2</sub> concentration ([CO<sub>2</sub>]) on root morphology and growth, nitrate (NO<sub>3</sub>-</sup>) uptake and... This paper investigated the effects of root-zone (RZ) CO<sub>2</sub> concentration ([CO<sub>2</sub>]) on root morphology and growth, nitrate (NO<sub>3</sub>-</sup>) uptake and assimilation of lettuce plants at different root-zone temperatures (RZT). Elevated RZ [CO<sub>2</sub>] stimulated root development, root and shoot growth compared to ambient RZ [CO<sub>2</sub>]. The greatest increase in root growth was observed in plants grown under elevated RZ [CO<sub>2</sub>] of 50,000 ppm. However, RZ [CO<sub>2</sub>] of 10,000 ppm was sufficient to achieve the maximal leaf area and shoot productivity. Lettuce plants exhibited faster shoot and root growth at 20°C-RZT than at ambient (A)-RZT. However, under elevated RZ [CO<sub>2</sub>], the magnitude of increased growth was greater at A-RZT than at 20°C-RZT. Compared to RZ [CO<sub>2</sub>] of 360 ppm, elevated RZ [CO<sub>2</sub>] of 10,000 ppm increased NO<sub>3</sub>-</sup> accumulation and nitrate reductase activity (NRA) in both leaves and roots. NO<sub>3</sub>-</sup> concentrations of leaf and root were higher at 20°C-RZT than at A-RZT in all plants. NRA was higher in root than in leaf especially under A-RZT. The total reduced nitrogen (TRN) concentration was significantly higher in plants grown under elevated RZ [CO<sub>2</sub>] of 10,000 ppm than under ambient RZ [CO<sub>2</sub>] of 360 ppm with greater concentration in 20°C-RZT plants than in A-RZT plants. These results imply that elevated RZ [CO<sub>2</sub>] significantly affected root morphology, root and shoot growth and N metabolism of temperate lettuce with greater impacts at A-RZT than at 20°C-RZT. These findings have practical significance to vegetable production by growing the vegetable crops at cool-RZT with elevated RZ [CO<sub>2</sub>] to enhance its productivity. 展开更多
关键词 LETTUCE Nitrate Assimilation Nitrate Uptake Root Morphology root-zone CO2 root-zone Temperature
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Effect of Root-Zone Temperature on Growth and Quality of Hydroponically Grown Red Leaf Lettuce (Lactuca sativa L. cv. Red Wave) 被引量:4
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作者 Masaru Sakamoto Takahiro Suzuki 《American Journal of Plant Sciences》 2015年第14期2350-2360,共11页
Soil temperature influences crop growth and quality under field and greenhouse conditions;however, precise investigation using controlled cultivation systems is largely lacking. We investigated effects of root-zone te... Soil temperature influences crop growth and quality under field and greenhouse conditions;however, precise investigation using controlled cultivation systems is largely lacking. We investigated effects of root-zone temperatures on growth and components of hydroponically grown red leaf lettuce (Lactuca sativa L. cv. Red Wave) under a controlled cultivation system at 20&degC. Compared with ambient root-zone temperature exposure, a 7-day low temperature exposure reduced leaf area, stem size, fresh weight, and water content of lettuce. However, root-zone heating treatments produced no significant changes in growth parameters compared with ambient conditions. Leaves under low root-zone temperature contained higher anthocyanin, phenols, sugar, and nitrate concentrations than leaves under other temperatures. Root oxygen consumption declined with low temperature root exposure, but not with root heating. Leaves of plants under low rootzone temperature showed hydrogen peroxide production, accompanied by lipid peroxidation. Therefore, low temperature root treatment is suggested to induce oxidative stress responses in leaves, activating antioxidative secondary metabolic pathways. 展开更多
关键词 root-zone TEMPERATURE Anthocyanin RED LEAF LETTUCE Hydroponics Drought Stress
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Effect of Partial Root-Zone Irrigating Deuterium Oxide on the Properties of Water Transportation and Distribution in Young Apple Trees 被引量:2
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作者 LIU Song-zhong ZHANG Qiang +2 位作者 LIU Jun SUN Jian WEI Qin-ping 《Journal of Integrative Agriculture》 SCIE CAS CSCD 2014年第6期1268-1275,共8页
Partial root-zone irrigation (PRI) has been proved to be an optimal water-saving irrigation technology, however, few studies were done on water transportation and distribution under PRI. The present study was perfor... Partial root-zone irrigation (PRI) has been proved to be an optimal water-saving irrigation technology, however, few studies were done on water transportation and distribution under PRI. The present study was performed to investigate the water transportation and distribution among the wet and dry root-zones and the shoot using deuterium water (D2O) in 1/4 root-zone PRI experiment. It also aimed to determine and analyze the D2O relative abundance within different types of roots and shoots. The results indicated that water could be transported from roots in wet root-zone to roots in dry root-zone and shoots within 2 h after irrigation. Water transportation in roots of wet-zone was carried out by absorbing root, 1-2 mm root, 2-5 mm root, and〉5 mm root progressively, while through a reverse process in three dry root-zones. In shoots, water was transported to trunk, central trunk, annual branches, shoot and leaf progressively. Thus in the young apple trees subjected to PRI, water was distributed ifrst in the roots, including the roots in the wet and dry root-zones, to satisfy the water need of roots itself, and then transported to the shoot within hours of irrigation. 展开更多
关键词 APPLE D2O partial root-zone drying relative abundance TRANSPORTATION DISTRIBUTION
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Effects of Alternative Partial Root-zone Irrigation and Nitrogen Fertilizer on Plukenetia volubilis Seedlings
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作者 耿艳菁 蔡传涛 蔡志全 《Agricultural Science & Technology》 CAS 2016年第4期890-895,共6页
This study was aimed to investigate the effects of alternative partial rootzone irrigation and nitrogen fertilizer on the potted seedlings of Plukenetia volubilis.A total of 7 treatments were designed with three facto... This study was aimed to investigate the effects of alternative partial rootzone irrigation and nitrogen fertilizer on the potted seedlings of Plukenetia volubilis.A total of 7 treatments were designed with three factors, i.e., irrigation amount, irrigation mode and nitrogen fertilizer. The growth, photosynthesis and water use efficiency were analyzed. The results showed that compared with those under full irrigation, the biomass and water consumption under alternative partial root-zone irrigation were reduced by 5% and 75%, respectively, and the water use efficiency was increased by 60%. Under severe drought conditions, the root cap ratio in the nitrogen fertilizer treatment group was increased by 30%; the leaf area index, photosynthetic rate and biomass under alternative partial root-zone irrigation were reduced by 38%, 9% and 18%, respectively. It indicates that under severe drought conditions, alternative partial root-zone irrigation is not suitable to be matched with application of nitrogen fertilizer. In short, under moderate drought conditions, alternative partial root-zone irrigation could reduce transpiration and improve water use efficiency, and it is an effective water-saving irrigation technology for the plantation of P.volubilis plants. 展开更多
关键词 Plukenetia volubilis L. Alternative partial root-zone irrigation Nitrogen fertilizer GROWTH Water-use efficiency
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Yield Response to Deficit Irrigation and Partial Root-Zone Drying in Processing Tomato (Lycopersicon esculentum Mill,) 被引量:3
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作者 Eugenio Nardella Marcella Michela Giuliani Giuseppe Gatta Antonio De Caro 《Journal of Agricultural Science and Technology(A)》 2012年第2期209-219,共11页
Due to the global expansion of irrigated areas and the limited availability of irrigation water, it is necessary to optimize water use in order to maximize crop yields under water deficit conditions. To evaluate the y... Due to the global expansion of irrigated areas and the limited availability of irrigation water, it is necessary to optimize water use in order to maximize crop yields under water deficit conditions. To evaluate the yield response of two processing tomato hybrids (Ercole and Genius) grown under different irrigation treatments, a field trial was conducted during the 2008 growing season in Southern Italy. Three irrigation treatments were used: the restitution of 70% of maximum evapotranspiration (ETc) both under "Deficit Irrigation" (70DI) and "Partial Root-zone Drying" (70PRD) strategies; full irrigated (FI: 100% ETc). The two water deficit irrigation treatments (DI and PRD) showed stomatal conductance values lower than FI treatment and saved a substantial amount of water maintaining reasonable marketable yield. Moreover, PRD strategy showed slightly higher "Water Use Efficiency" (WUE) values than DI. Finally, "yield response factor" (Ky) showed always values less than unity, indicating the possibility to adopt, within certain limited condition, both DI and PRD in field-grown processing tomato cultivated in Southern Italy. In conclusion, in our experimental conditions, deficit irrigation practices seem to be acceptable relatively to processing tomato yield aspects and Ky could be promoted as a useful indicator for irrigation in water deficit conditions. 展开更多
关键词 TOMATO deficit irrigation partial root-zone drying WUE Ky.
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Elevated Root-Zone Temperature Modulates Growth and Quality of Hydroponically Grown Carrots 被引量:1
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作者 Masaru Sakamoto Takahiro Suzuki 《Agricultural Sciences》 2015年第8期749-757,共9页
Air and soil temperatures strongly influence the growth and quality of crops. However, in root vegetables, such as carrot, few experiments aimed at regulating growth and quality by manipulating root-zone temperature h... Air and soil temperatures strongly influence the growth and quality of crops. However, in root vegetables, such as carrot, few experiments aimed at regulating growth and quality by manipulating root-zone temperature have been reported. We investigated the effect of root-zone temperatures (20&degC, 25&degC, 29&degC, and 33&degC) on carrot growth and components using a hydroponic system. High root-zone temperatures for 14 days reduced shoot and rootgrowth and water content. In contrast, total phenolic compounds and soluble-solid content increased in tap roots under high-temperature treatment. Root oxygen consumption was upregulated after 7 days under high-temperature treatment. These results suggest that high root-zone temperatures induce drought-like stress responses that modulate carrot biomass and components. High root-zone temperature treatments administered to hydroponically grown crops may be a valuable tool for improving and increasing the quality and value of crops. 展开更多
关键词 CARROT root-zone TEMPERATURE HYDROPONICS Phenolic Compounds Drought Stress
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Effects of Root-Zone Temperature on Photosynthesis, Productivity and Nutritional Quality of Aeroponically Grown Salad Rocket (Eruca sativa) Vegetable 被引量:1
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作者 Jie He Xin Er See +1 位作者 Lin Qin Tsui Wei Choong 《American Journal of Plant Sciences》 2016年第14期1993-2005,共14页
Although tropical high ambient temperature and humidity severely reduced the productivity of temperate plants, temperate vegetable crops such as lettuce have been successfully grown in Singapore by only cooling its ro... Although tropical high ambient temperature and humidity severely reduced the productivity of temperate plants, temperate vegetable crops such as lettuce have been successfully grown in Singapore by only cooling its root-zone. In this paper, a cool Meditteranean vegetable, Eruca sativa, was studied to understand how different RZTs can impact its shoot productivity, photosynthesis and nutritional quality. All plants were cultivated using aeroponic systems in a tropical greenhouse under hot ambient conditions where roots were subjected to four different root-zone temperatures (RZTs) of 20&deg;C-RZT, 25&deg;C-RZT, 30&deg;C-RZT and fluctuating ambient temperatures ranged from 25&deg;C to 38&deg;C [25&deg;C/38&deg;C (ambient)]-RZT. Parameters studied include shoot fresh weight (FW), photosynthetic gas exchange, midday chlorophyll (Chl) fluorescence F<sub>v</sub>/F<sub>m</sub> ratio, Chl fluorescence photochemical quenching (qP), non-photochemical quenching (qN) and electron transport rate (ETR), total phenolic compounds and mineral content such as potassium (K), calcium (Ca), magnesium (Mg) and iron (Fe). Among the 4 different RZT treatments, E. sativa plants grown under ambient-RZT (25/38&deg;C-RZT) had the lowest shoot and root FW while those plants grown under 20&deg;C-RZT had highest productivity of shoot and root. However, there were no significant differences in shoot and root FW in plants grown at 25&deg;C- and 30&deg;C-RZT. Compared to plants grown under 25&deg;C/38&deg;C (ambient-RZT), light-saturated photosynthetic CO<sub>2</sub> assimilation rate (A<sub>sat</sub>) and stomatal conductance (g<sub>ssat</sub>) were similarly higher in 20&deg;C-, 25&deg;C- and 30&deg;C-RZT. All plants had midday Chl fluorescence F<sub>v</sub>/F<sub>m</sub> ratio lower than <0.8 ranged from 0.785 to 0.606 with the highest and lowest ratios recorded in 20&deg;C-RZT and ambient-RZT plants, respectively. These results indicate that cooling the RZ of E. sativa plants protected their PS II from photoinactivation during midday in the greenhouse. There were no significant differences observed in photochemical quenching (qP), non-photochemical quenching (qN) and electron transport rate among plants grown under 20&deg;C-, 25&deg;C- and 30&deg;C-RZT. However, plants grown under ambient-RZT had lower qP, qN and ETR compared to all other plants. E. sativa at 20&deg;C-RZT with the best developed roots had the highest dietary mineral (K, Mg, Ca and Fe) contents but lower total phenolics content. In contrast, ambient-RZT, plants with poorly developed roots had the lowest mineral content but highest total phenolic content. The results of this study suggest that cooling of roots is a feasible method for the cultivation of E. sativa in the tropic, which enhances the content of dietary minerals in shoots. 展开更多
关键词 Chlorophyll Fluorescence Dietary Minerals root-zone Temperature Phenolic Compounds Photosynthetic CO2 Assimilation Rate Stomatal Conductance
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Role of alternate and fixed partial root-zone drying on water use efficiency and growth of maize(Zea mays L.)in gypsiferous soils
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作者 Abdulwahab Abdulrazak Al-Kayssi 《International Soil and Water Conservation Research》 SCIE CSCD 2023年第1期145-158,共14页
Alternate partial root-zone drying(APRD)is a water-saving method but can regulate crop physiological responses.A pot experiment has been conducted to study the efficiency of partial and fixed root-zone drying on the g... Alternate partial root-zone drying(APRD)is a water-saving method but can regulate crop physiological responses.A pot experiment has been conducted to study the efficiency of partial and fixed root-zone drying on the growth and production of maize(Zea mays L)in addition to the water use efficiency in soils with different gypsum content.The experimental treatments include three irrigation treatments,i.e.Conventional Irrigation(CI),Alternate Partial Root-zone Drying(APRD)and Fixed Partial Root-zone Drying(FPRD),and three soils with different gypsum content"(60.0[G1],153.7[G2],and 314.2[G3]g kg^(-1))".The vegetative growth,root dry mass and physiological indices(leaf relative water content,carotenoid concentration,proline)have been studied during three stages of maize plant growth(jointing,tasselling,and maturing).The Results showed that compared to CI,APRD and FPRD increased water use efficiency by 38.93 and 14.94%based on dry seed yield.In addition,compared to CI,APRD increased maize seed yield by 4.62-20.71%,while FPRD decreased yield by 19.24-5.28%for the gypsiferous soils G2 and G3,respectively.APRD has a slight effect on leaf water potential,leaf relative water content,carotenoid and proline activities from jointing to maturing stages at the three gypsiferous soils.Results suggest that APRD could make maize plants use water even more productively with better adaptation to water shortages in the gypsiferous soils. 展开更多
关键词 Partial root-zone drying Water use eficiency Cypsiferous soils Maize growth stages Maize grain yield
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Influences of alternate partial root-zone irrigation and urea rate on water-and nitrogen-use efficiencies in tomato 被引量:5
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作者 Liu Xiaogang Li Fusheng +2 位作者 Zhang Fucang Cai Huanjie Yang Qiliang 《International Journal of Agricultural and Biological Engineering》 SCIE EI CAS 2017年第6期94-102,共9页
Traditional water and fertilizer inputs are often much higher than the actual demands of tomato,which causes a reduction in water-and fertilizer-use efficiencies.To investigate the advantage of alternate partial root-... Traditional water and fertilizer inputs are often much higher than the actual demands of tomato,which causes a reduction in water-and fertilizer-use efficiencies.To investigate the advantage of alternate partial root-zone irrigation(AI)on water-and nitrogen(N)-use efficiencies of tomato modified by water and N management,taking conventional irrigation(CI)as the control,the effects of AI on root morphology and activity,fruit yield and water and N use efficiency were studied using pot experiments.There were four combinations of irrigation levels and growing stages of tomato for AI,i.e.AI_(1)(high water(W_(H))from blooming to harvest stage(BHS)),AI_(2)(W_(H)from blooming to fruit setting stage(BFS)and low water(W_(L))at the harvest stage(HS)),AI_(3)(W_(L)at BFS and W_(H)at HS)and AI_(4)(W_(L)at BHS)at three urea rates,i.e.low urea rate(NL),middle urea rate(N_(M))and high urea rate(N_(H))in the form of urea.Irrigation quotas for W_(H)and W_(L)in AI at BFS or HS were 80%and 60%of that in CI,respectively.Compared to CI,AI decreased water consumption by 16.0%-33.1%and increased water use efficiency of yield(WUE_(y))and dry mass(WUE_(d))by 6.7%-11.9%and 10.2%-15.9%,respectively.AI_(1)did not decline yield,total N uptake(TNU)and N use efficiency(NUE)significantly.Compared to NL,N_(M)enhanced tomato yield,TNU,WUE_(y)and WUE_(d)by 28.5%,35.3%,22.6%and 16.3%,respectively.Compared to CINL,AI_(1)N_(M)reduced water consumption by 12.5%,but increased tomato yield,TNU,WUE_(y)and WUE_(d)by 35.5%,58.4%,54.4%and 53.7%,respectively.Therefore,AI_(1)can improve water use efficiency and total N uptake of tomato simultaneously at medium urea rate. 展开更多
关键词 alternate partial root-zone irrigation nitrogen level nitrogen uptake TOMATO water use efficiency YIELD
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Alternate partial root-zone irrigation with high irrigation frequency improves root growth and reduces unproductive water loss by apple trees in arid north-west China 被引量:2
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作者 Shaoqing DU Ling TONG +4 位作者 Shaozhong KANG Fusheng LI Taisheng DU Sien LI Risheng DING 《Frontiers of Agricultural Science and Engineering》 2018年第2期188-196,共9页
Alternate partial root-zone irrigation(APRI)can improve water use efficiency in arid areas. However,the effectiveness and outcomes of different frequencies of APRI on water uptake capacity and physiological water use ... Alternate partial root-zone irrigation(APRI)can improve water use efficiency in arid areas. However,the effectiveness and outcomes of different frequencies of APRI on water uptake capacity and physiological water use have not been reported. A two-year field experiment was conducted with two irrigation amounts(400 and500 mm) and three irrigation methods(conventional irrigation, APRI with high and low frequencies). Root length density, stomatal conductance, photosynthetic rate,transpiration rate, leaf water use efficiency, midday stem and leaf water potentials were measured. The results show that in comparison with conventional irrigation, APRI with high frequency significantly increased root length density and decreased water potentials and stomatal conductance.No differences in the above indicators between the two APRI frequencies were detected. A significantly positive relationship between stomatal conductance and root length density was found under APRI. Overall, alternate partial root-zone irrigation with high frequency has a great potential to promote root growth, expand water uptake capacity and reduce unproductive water loss in the arid apple production area. 展开更多
关键词 alternate partial root-zone irrigation apple tree leaf water use efficiency root length density stomatal conductance water potential
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Evaluation of tomato fruit quality response to water and nitrogen management under alternate partial root-zone irrigation 被引量:1
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作者 Yang Hui Cao Hongxia +3 位作者 Hao Xinmei Guo Lijie Li Hongzheng Wu Xuanyi 《International Journal of Agricultural and Biological Engineering》 SCIE EI CAS 2017年第5期85-94,共10页
A pot experiment was conducted to investigate the effects of different water and nitrogen supply amounts on the comprehensive assessment of tomato fruit quality and root growth parameters under alternate partial root-... A pot experiment was conducted to investigate the effects of different water and nitrogen supply amounts on the comprehensive assessment of tomato fruit quality and root growth parameters under alternate partial root-zone irrigation.Three upper irrigation limitations(i.e.70%(W1),80%(W2)and 90%(W3)of field capacity,respectively)and three N-fertilizer levels(i.e.0.18(N1),0.30(N2)and 0.42(N3)g/kg soil,respectively)were arranged with a randomized complete block design,and alternate partial root-zone irrigation method was applied.Results showed that fruit yields under deficit irrigation(W1 and W2)were decreased by 6.9%and 2.0%respectively compared with W3 under N1 level.Yields of tomato under W1N1 and W1N2 combinations were also reduced by 10.3%and 7.2%,respectively compared with W1N3 combination.Root dry weight,root length,root surface area and root volume were all increased in W1N2 treatment.According to two-way ANOVA,the root parameters except root dry weight,were extremely sensitive to water,nitrogen and the cross effect of the two factors.TSS(total soluble solids),SS(soluble sugars)and OA(organic acid)in the fruits increased with the decrease in irrigation water,OA and NC reduced with decreasing amount of nitrogen.Moreover,within an appropriate range,as more irrigation water and nitrogen were applied,the higher VC(vitamin C)and lycopene contents were identified in the fruits.Eventually,the combinational evaluation method(i.e.entropy method and gray relational analysis)showed that W2N2 ranked highest in comprehensive fruit quality.Therefore,considering the tradeoff between fruit comprehensive quality and yields,upper irrigation limitation of 80%θf and N-fertilizer of 0.30 g/kg soil with alternate partial root-zone irrigation was the optimal cultivation strategy for the greenhouse tomato in autumn-winter season in northwest China. 展开更多
关键词 greenhouse tomato alternate partial root-zone irrigation water and nitrogen root growth comprehensive fruit quality
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Understanding root-zone soil moisture in agricultural regions of Central Mexico using the ensemble Kalman filter,satellite-derived information,and the THEXMEX-18 dataset 被引量:1
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作者 Héctor Ernesto Huerta-Bátiz Daniel Enrique Constantino-Recillas +3 位作者 Alejandro Monsiváis-Huertero Juan Carlos Hernández-Sánchez Jasmeet Judge Ramón Sidonio Aparicio-García 《International Journal of Digital Earth》 SCIE EI 2022年第1期52-78,共27页
An Ensemble Kalman Filter(EnKF)-based assimilation algorithm was implemented to estimate root-zone soil moisture(RZSM)using a Soil-Vegetation-Atmosphere Transfer(SVAT)model during a complete growing season of corn in ... An Ensemble Kalman Filter(EnKF)-based assimilation algorithm was implemented to estimate root-zone soil moisture(RZSM)using a Soil-Vegetation-Atmosphere Transfer(SVAT)model during a complete growing season of corn in Central Mexico.Synthetic and field soil moisture(SM)observations and NASA SMAP SM retrievals were used to understand the effect of vertically spatial updates and uncertainties in meteorological forcings on RZSM estimates.Assimilation of RZSM every 3 days using SM observations at 4 depths lowered the averaged standard deviation(ASD)and the root mean square error(RMSE)by 60%and 50%,respectively,compared to the open-loop ASD.The assimilation of synthetic SM at the top 0-5 cm obtained RZSM closer to observations compared to THEXMEX-18 SM measurements and SMAP SM retrievals.Differences between EnKF estimates and SM observations and SMAP SM retrievals are mainly due to misrepresentation of vegetation conditions.The results improved SM estimates up to 10-cm depth using SMAP SM retrievals;however,additional studies are needed to improve SM at deeper layers.The implemented methodology can estimate SM at the top 10 cm of the soil every 3 days to mitigate the impact of the climate change on agricultural production over rainfed areas,particularly in developing countries. 展开更多
关键词 root-zone soil moisture SVAT model ensemble kalman filter soil moisture active-Passive(SMAP)mission agricultural region THEXMEX-18 central Mexico
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Biochar and alternate partial root-zone irrigation greatly enhance the effectiveness of mulberry in remediating lead-contaminated soils
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作者 Lei Wang Qing-Lai Dang Binyam Tedla 《Journal of Plant Ecology》 SCIE CSCD 2020年第6期757-764,共8页
Aims Soil lead contamination has become increasingly serious and phytoremediation can provide an effective way to reclaim the contaminated soils.This study aims to examine the growth,lead resistance and lead accumulat... Aims Soil lead contamination has become increasingly serious and phytoremediation can provide an effective way to reclaim the contaminated soils.This study aims to examine the growth,lead resistance and lead accumulation of mulberry(Morus alba L.)seedlings at four levels of soil lead contamination with or without biochar addition under normal or alternative partial root-zone irrigation(APRI).Methods We conducted a three-factor greenhouse experiment with biochar(with vs.without biochar addition),irrigation method(APRI vs.normal irrigation)and four levels of soil lead(0,50,200 and 800 mg·kg^(-1)).The performance of the seedlings under different treatments was evaluated by measuring growth traits,osmotic substances,antioxidant enzymes and lead accumulation and translocation.Important Findings The results reveal that mulberry had a strong ability to acclimate to soil lead contamination,and that biochar and APRI synergistically increased the biomass and surface area of absorption root across all levels of soil lead.The seedlings were able to resist the severe soil lead contamination(800 mg·kg^(-1) Pb)by adjusting glutathione metabolism,and enhancing the osmotic and oxidative regulating capacity via increasing proline content and the peroxidase activity.Lead ions in the seedlings were primarily concentrated in roots and exhibited a dose–effect associated with the lead concentration in the soil.Pb,biochar and ARPI interactively affected Pb concentrations in leaves and roots,translocation factor and bioconcentration.Our results suggest that planting mulberry trees in combination with biochar addition and APRI can be used to effectively remediate lead-contaminated soils. 展开更多
关键词 Pb-contaminated soil PHYTOREMEDIATION Morus alba L. alternate partial root-zone irrigation BIOCHAR
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基于根区温度和肥料浓度耦合的草莓生长调控
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作者 樊小雪 陈晓东 +5 位作者 金晶 蔡伟建 王庆莲 赵密珍 毛晓娟 任妮 《农业工程学报》 EI CAS CSCD 北大核心 2024年第12期109-116,共8页
为探索草莓根区加热的最适温度及施肥浓度,该研究设置3个根区温度水平(不加温(8℃)、16、22℃)和3个肥料浓度水平(0.5、1.5、2.5 g/L),共计9个处理。分析了根区温度和肥料浓度协同作用对草莓产量、品质、肥料偏生产力、水分利用率的影... 为探索草莓根区加热的最适温度及施肥浓度,该研究设置3个根区温度水平(不加温(8℃)、16、22℃)和3个肥料浓度水平(0.5、1.5、2.5 g/L),共计9个处理。分析了根区温度和肥料浓度协同作用对草莓产量、品质、肥料偏生产力、水分利用率的影响。结合层次分析法和CRITIC客观赋权法,运用优劣解距离法对各处理进行基于草莓产量、品质、肥料偏生产力、水分利用率的综合评价。结果表明:1)采用根区加温对设施草莓生长有促进作用。在采摘第3茬果实时,加温到16℃和22℃的处理下可以采摘的草莓植株数量相较于不加温处理明显增加。2)肥料浓度对草莓生长综合评分的影响大于根区温度。高肥料浓度(2.5 g/L)会降低草莓产量,中肥料浓度(1.5 g/L)不仅能增加单果质量,还能提高肥料偏生产力和水分利用率,具有更好的经济效益。3)基于TOPSIS综合评价建立了设施草莓生长综合评价体系,得出评分最高的处理为T5处理(16℃,1.5 g/L)。通过寻找最优区间,结果发现根区温度在13.10~18.47℃,肥料浓度在1.43~1.87g/L时,设施草莓生长效果较好。该研究结果可为设施草莓冬季及早春的温度和肥水管理提供理论依据。 展开更多
关键词 作物 肥料 根区温度 草莓 综合评价 生长调控
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酸性矿山废水对成熟期水稻根区理化因子及固氮微生物的影响
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作者 田胜尼 张琴 +3 位作者 董玉飞 丁洲 叶爱华 张明珠 《生物技术通报》 CAS CSCD 北大核心 2024年第6期271-280,共10页
【目的】酸性矿山废水(acid mine drainage,AMD)是一类低pH、高硫酸盐浓度和重金属富集的废水。探究成熟期水稻根区土壤固氮菌群落的丰度和组成及其对AMD的响应,并阐明土壤固氮菌群落结构变化的主要驱动因素。【方法】对取自安徽省铜陵... 【目的】酸性矿山废水(acid mine drainage,AMD)是一类低pH、高硫酸盐浓度和重金属富集的废水。探究成熟期水稻根区土壤固氮菌群落的丰度和组成及其对AMD的响应,并阐明土壤固氮菌群落结构变化的主要驱动因素。【方法】对取自安徽省铜陵市矿区受AMD污染和未受污染的稻田土壤进行水稻盆栽试验,设置3组不同处理(A:AMD浇溉污染土、B:清洁水浇灌污染土、CK:清洁水浇灌未污染土),采用nifH基因高通量测序技术分析不同处理下的成熟期水稻根区土壤固氮菌群落特征。【结果】AMD污灌使得水稻根区土壤中SO42-、NO3-、重金属的含量显著上升,土壤酸化且固氮菌群落的多样性下降。水稻根区土壤的优势固氮菌包括Anaeromyxobacter、Geobacter等,CK处理中富集的固氮菌群数量显著高于A、B处理,且B处理中主要富集疣微菌门,CK处理中主要富集变形菌门。pH和重金属Cu、Pb、Zn是驱动水稻根区土壤固氮菌群落结构的主要因素。具有硫还原功能的Desulfovibrio和Desulfurivibrio对氮的变化贡献明显。【结论】AMD对水稻根区土壤化学性质和固氮菌产生显著影响,恢复清洁水灌溉可促进固氮菌的恢复。 展开更多
关键词 AMD 水稻根区土壤 根区固氮微生物 重金属
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基于联盟式区块链的域名系统根区管理体系
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作者 张宇 冯禹铭 +1 位作者 张伟哲 方滨兴 《信息安全研究》 CSCD 北大核心 2024年第7期602-615,共14页
当前互联网域名系统的中心化根体系伴随着长期的担忧:一方面担忧国家代码顶级域可能由于根权威职能被破坏而失控;另一方面担忧去中心化的根替代方案会导致域名空间分裂.上述担忧的根源在于当前和替代的根区管理在自治化和透明化上不足,... 当前互联网域名系统的中心化根体系伴随着长期的担忧:一方面担忧国家代码顶级域可能由于根权威职能被破坏而失控;另一方面担忧去中心化的根替代方案会导致域名空间分裂.上述担忧的根源在于当前和替代的根区管理在自治化和透明化上不足,导致对当前的根权威或替代方案的不信任.为解决上述问题,提出一种新的域名系统根区管理体系——根共识链,通过增强互信缓解各方担忧.根共识链中多个自治的注册局共同参与根区管理,每个注册局下辖国家代码顶级域和根服务器运营者,共同构建一个基于联盟式区块链的根区管理体系.根共识链在维护统一域名空间和唯一全球根权威的同时,通过根共识链管理者们建立根共同体提高自治性,通过区块链记录和执行各方协议以及根区操作提高透明性.基于现网科研测试床的实验结果表明,根共识链能够有效应对上述担忧,具有良好的可行性与实用性. 展开更多
关键词 域名系统 根服务器 根区管理 联盟式区块链 注册局
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不同灌溉方式和灌水量对土壤水盐及燕麦生长特征的影响
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作者 赵文举 张雪儿 +1 位作者 李建承 俞海英 《水土保持通报》 CSCD 北大核心 2024年第3期16-25,共10页
[目的]探究不同灌溉方式和灌水量对土壤水盐变化规律及燕麦生长特征的影响,为提高盐碱地作物的生产效能和土壤水分管理提供科学参考。[方法]采用盆栽试验,设置3种灌溉方式:常规灌溉、固定单侧灌溉(fixed unilateral root zone irrigatio... [目的]探究不同灌溉方式和灌水量对土壤水盐变化规律及燕麦生长特征的影响,为提高盐碱地作物的生产效能和土壤水分管理提供科学参考。[方法]采用盆栽试验,设置3种灌溉方式:常规灌溉、固定单侧灌溉(fixed unilateral root zone irrigation,FURI)、交替灌溉(alternative partial root zone irrigation,APRI),3组灌水量:W_1(60%θ_f~70%θ_f,θ_f为田间持水率),W_2(70%θ_f~80%θ_f)和W_3(80%θ_f~90%θ_f),以常规灌溉作为对照,共9组交互处理。[结果](1)不同灌溉方式下,土壤各层含水率变化趋势基本一致,随灌水量增加洗盐效果越显著,常规灌溉的深层含水率总体高于其他两种灌溉方式。(2)燕麦株高、叶绿素相对含量(relative chlorophyll content of leaves,SPAD)、品质随灌水量的增加而上升,与常规灌溉相比,W_2灌溉水平下,分根交替灌溉处理的粗脂肪,粗蛋白,β-葡聚糖含量分别增加7.02%,3.76%,6.06%,但降低了燕麦叶片的SPAD值,影响其光合能力。(3)随着燕麦生育期的推进,土壤盐分均呈现不同程度的累积,分根交替灌溉的积盐率最低,同时对燕麦根系生长、水分利用效率及产量影响显著,其中根系总长、根系总表面积、根系总体积较相同灌水量(W_2)的常规灌溉分别增加6.75%,6.92%,12.5%,水分利用效率提高17.32%。[结论]采用分根交替灌溉方式下的中等灌水量(W_2)有利于提高燕麦的生产效能,对盐分累积的控制效果较好。 展开更多
关键词 分根交替灌溉 土壤水盐 燕麦 水分利用效率 品质
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根区土壤氧气检测技术与方法研究进展 被引量:1
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作者 周海洋 孙卿峰 +3 位作者 夏鹏凯 关鹏 赵燕东 郑一力 《农业工程学报》 EI CAS CSCD 北大核心 2024年第3期1-13,共13页
根区氧胁迫问题在滞涝区域、城市地面硬化区域尤为常见,根区土壤氧气含量高低是判断植物是否承受低氧胁迫的重要依据,其检测技术与分析方法的研究对农林生产和生态保护具有指导意义。为明确根区土壤氧气检测现状及发展方向,该研究概括... 根区氧胁迫问题在滞涝区域、城市地面硬化区域尤为常见,根区土壤氧气含量高低是判断植物是否承受低氧胁迫的重要依据,其检测技术与分析方法的研究对农林生产和生态保护具有指导意义。为明确根区土壤氧气检测现状及发展方向,该研究概括了国内外土壤氧气分布检测方法和分析策略,将现有获取根区土壤氧含量时空分布的技术手段归纳为氧传感器点位检测法、土壤氧扩散模型分析法和荧光成像法,并剖析比较了各方法的优缺点和适用场景。基于氧传感器等领域最新进展,结合各类氧气运输模型,总结了根区土壤氧气分布检测技术和建模方法的研究重点与发展方向如下:1)氧传感器呈现小型化和集成化趋势,引入新型材料,提高氧传感器的灵敏度和耐久性能;2)模型的精度将不断提高,更多地考虑多尺度和多因素交互作用,以全面分析根区土壤氧环境的复杂性;3)开发可持续的荧光染料,提高荧光成像技术的分辨率和深度,以实现对更小、更深层次结构的清晰成像;4)分析植物蒸腾作用中的水氧关系,通过茎干氧浓度反映植物对根区氧环境变化的生理适应能力。研究可为植物根区土壤氧气分布检测提供思路与借鉴。 展开更多
关键词 土壤 传感器 模型 根区
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基于蜣螂算法优化BP的冬夏生菜根区温度预测模型 被引量:1
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作者 刘艺梦 丁小明 +4 位作者 王会强 李恺 张观山 尹义蕾 潘守江 《农业工程学报》 EI CAS CSCD 北大核心 2024年第5期231-238,共8页
为解决生菜应用营养液膜技术(nutrient film technique,NFT)在冬夏季根区温度控制的问题,该研究基于机器学习方法,结合温室内外历史环境数据,构建BP神经网络根区温度预测模型。为提高模型精度,采用蜣螂算法(dung beetle optimizer, DBO... 为解决生菜应用营养液膜技术(nutrient film technique,NFT)在冬夏季根区温度控制的问题,该研究基于机器学习方法,结合温室内外历史环境数据,构建BP神经网络根区温度预测模型。为提高模型精度,采用蜣螂算法(dung beetle optimizer, DBO)优化BP神经网络模型的输入权重和阈值,构建了冬夏两个季节的基于DBO-BP神经网络的栽培槽内根区温度预测模型,并与GA-BP、BP神经网络模型进行对比。结果表明,根区温度预测值与真实值变化趋势较为一致,DBO-BP模型温度预测最大误差为2.21°C,决定系数为0.943,而GA-BP与BP模型决定系数分别为0.928、0.892;DBO-BP模型评价指标的均方根误差、平均绝对误差分别为0.707、0.549°C,均小于其他模型评价指标。DBO-BP神经网络可满足在NFT栽培中根区温度预测精度的需求,能够为生菜栽培根区快速控温提供有效方法。 展开更多
关键词 温室 温度 营养液膜技术 蜣螂优化算法 BP神经网络 根区温度预测
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