Jian-guo Zhu

Jian-guo Zhu's AcademicInfluence.com Rankings

Jian-guo Zhu

Biology

#14889

World Rank

#18758

Historical Rank

Agriculture

#55

World Rank

#90

Historical Rank

Physiology

#504

World Rank

#752

Historical Rank

biology Degrees

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Biology

Jian-guo Zhu's Degrees

Bachelors Agronomy Nanjing Agricultural University

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Jian-guo Zhu's Published Works

Number of citations in a given year to any of this author's works

Total number of citations to an author for the works they published in a given year. This highlights publication of the most important work(s) by the author

Published Works

[Responses of agricultural crops of free-air CO2 enrichment]. (2002) (984)
TiO2 and ZnO nanoparticles negatively affect wheat growth and soil enzyme activities in agricultural soil. (2011) (443)
Autotrophic growth of nitrifying community in an agricultural soil (2011) (353)
Quantification of N2O fluxes from soil–plant systems may be biased by the applied gas chromatograph methodology (2008) (231)
Carbon dioxide (CO2) levels this century will alter the protein, micronutrients, and vitamin content of rice grains with potential health consequences for the poorest rice-dependent countries (2018) (220)
Impact of biochar application on nitrogen nutrition of rice, greenhouse-gas emissions and soil organic carbon dynamics in two paddy soils of China (2013) (178)
Differential responses in two varieties of winter wheat to elevated ozone concentration under fully open‐air field conditions (2011) (158)
The impact of free-air CO2 enrichment (FACE) and nitrogen supply on grain quality of rice (2007) (149)
Nitrification of archaeal ammonia oxidizers in acid soils is supported by hydrolysis of urea (2012) (146)
Physiological and Biochemical Changes Imposed by CeO2 Nanoparticles on Wheat: A Life Cycle Field Study. (2015) (135)
A 3-year record of N2O and CH4 emissions from a sandy loam paddy during rice seasons as affected by different nitrogen application rates (2012) (135)
Corrigendum: An indica rice genotype showed a similar yield enhancement to that of hybrid rice under free air carbon dioxide enrichment (2015) (129)
Impact of elevated ozone concentration on yield of four Chinese rice cultivars under fully open-air field conditions (2009) (123)
Long‐Term Field Fertilization Significantly Alters Community Structure of Ammonia‐Oxidizing Bacteria rather than Archaea in a Paddy Soil (2011) (119)
Effects of elevated ozone concentration on yield of four Chinese cultivars of winter wheat under fully open‐air field conditions (2011) (118)
Seasonal changes in the effects of free‐air CO2 enrichment (FACE) on growth, morphology and physiology of rice root at three levels of nitrogen fertilization (2008) (112)
Effects of organic matter incorporation on nitrous oxide emissions from rice-wheat rotation ecosystems in China (2010) (103)
Tillage and crop residue management significantly affects N-trace gas emissions during the non-rice season of a subtropical rice-wheat rotation (2009) (100)
A projection of ozone‐induced wheat production loss in China and India for the years 2000 and 2020 with exposure‐based and flux‐based approaches (2013) (99)
Yield and photosynthetic characteristics of flag leaves in Chinese rice (Oryza sativa L.) varieties subjected to free-air release of ozone (2009) (99)
Effects of nitrogen fertilizer on CH4 emission from rice fields: multi-site field observations (2009) (97)
The impact of free-air CO2 enrichment (FACE) and N supply on yield formation of rice crops with large panicle (2006) (92)
Seasonal changes in the effects of free-air CO2 enrichment (FACE) on dry matter production and distribution of rice (Oryza sativa L.) (2006) (92)
Nitrogen‐regulated effects of free‐air CO2 enrichment on methane emissions from paddy rice fields (2006) (88)
Photosynthetic acclimation in rice leaves to free-air CO2 enrichment related to both ribulose-1,5-bisphosphate carboxylation limitation and ribulose-1,5-bisphosphate regeneration limitation. (2005) (87)
Effect of ammonium-based, non-sulfate fertilizers on CH4 emissions from a paddy field with a typical Chinese water management regime (2011) (84)
Elevated CO2 levels affects the concentrations of copper and cadmium in crops grown in soil contaminated with heavy metals under fully open-air field conditions. (2011) (83)
Nitrous oxide and methane fluxes from a rice–wheat crop rotation under wheat residue incorporation and no-tillage practices (2013) (81)
Differential effects of ozone on photosynthesis of winter wheat among cultivars depend on antioxidative enzymes rather than stomatal conductance. (2016) (81)
Yield formation of CO2-enriched hybrid rice cultivar Shanyou 63 under fully open-air field conditions (2008) (80)
Apoplastic ascorbate contributes to the differential ozone sensitivity in two varieties of winter wheat under fully open-air field conditions. (2010) (80)
A stomatal ozone flux-response relationship to assess ozone-induced yield loss of winter wheat in subtropical China. (2012) (76)
Effects of elevated CO2 and N fertilization on CH4 emissions from paddy rice fields (2004) (74)
Comparison of manual and automated chambers for field measurements of N2O, CH4, CO2 fluxes from cultivated land (2009) (68)
The temporal and species dynamics of photosynthetic acclimation in flag leaves of rice (Oryza sativa) and wheat (Triticum aestivum) under elevated carbon dioxide. (2012) (64)
Seasonal changes in the effects of free-air CO2 enrichment (FACE) on nitrogen (N) uptake and utilization of rice at three levels of N fertilization (2007) (62)
Yield formation of CO2-enriched inter-subspecific hybrid rice cultivar Liangyoupeijiu under fully open-air field condition in a warm sub-tropical climate (2009) (58)
Soil microbial food web responses to free-air ozone enrichment can depend on the ozone-tolerance of wheat cultivars (2012) (56)
A system for free-air ozone concentration elevation with rice and wheat: Control performance and ozone exposure regime (2011) (55)
Shifts of functional gene representation in wheat rhizosphere microbial communities under elevated ozone (2012) (55)
Elevated CO2 accelerates flag leaf senescence in wheat due to ear photosynthesis which causes greater ear nitrogen sink capacity and ear carbon sink limitation. (2009) (54)
Quantifying net ecosystem carbon dioxide exchange of a short‐plant cropland with intermittent chamber measurements (2008) (54)
Do all leaf photosynthesis parameters of rice acclimate to elevated CO2, elevated temperature, and their combination, in FACE environments? (2018) (54)
Biochemical and molecular characteristics of leaf photosynthesis and relative seed yield of two contrasting rice cultivars in response to elevated [CO2] (2014) (53)
Regulatory effects of soil properties on background N2O emissions from agricultural soils in China (2007) (53)
Nitrogen Cycling and Losses under Rice-Wheat Rotations with Coated Urea and Urea in the Taihu Lake Region (2007) (53)
Responses of rice and winter wheat to free-air CO2 enrichment (China FACE) at rice/wheat rotation system (2007) (51)
Dissimilarity of ascorbate–glutathione (AsA–GSH) cycle mechanism in two rice (Oryza sativa L.) cultivars under experimental free-air ozone exposure (2013) (49)
Response of phyllosphere bacterial communities to elevated CO2 during rice growing season (2014) (49)
Characteristics of multiple‐year nitrous oxide emissions from conventional vegetable fields in southeastern China (2011) (49)
Annual emissions of nitrous oxide and nitric oxide from rice-wheat rotation and vegetable fields: a case study in the Tai-Lake region, China (2012) (47)
Carbon footprint of rice production under biochar amendment – a case study in a Chinese rice cropping system (2016) (47)
Nitric oxide emissions from conventional vegetable fields in southeastern China. (2009) (46)
Seasonal variations in surface ozone as influenced by Asian summer monsoon and biomass burning in agricultural fields of the northern Yangtze River Delta (2013) (46)
Impacts of Mo application on biological nitrogen fixation and diazotrophic communities in a flooded rice-soil system. (2019) (44)
Elevated CO2 levels modify TiO2 nanoparticle effects on rice and soil microbial communities. (2017) (44)
Causes of variation among rice models in yield response to CO2 examined with Free-Air CO2 Enrichment and growth chamber experiments (2017) (43)
An indica rice genotype showed a similar yield enhancement to that of hybrid rice under free air carbon dioxide enrichment (2015) (43)
Seasonal changes in the effects of free-air CO2 enrichment (FACE) on phosphorus uptake and utilization of rice at three levels of nitrogen fertilization (2007) (42)
Yield, dry matter distribution and photosynthetic characteristics of rice under elevated CO2 and increased temperature conditions (2020) (42)
The impact of elevated CO2 and temperature on grain quality of rice grown under open-air field conditions. (2016) (41)
A new explanation of the N concentration decrease in tissues of rice (Oryza sativa L.) exposed to elevated atmospheric pCO2 (2006) (41)
Mapping ozone risks for rice in China for years 2000 and 2020 with flux-based and exposure-based doses (2014) (41)
The contrasting responses of soil microorganisms in two rice cultivars to elevated ground-level ozone. (2015) (41)
Response of soil, leaf endosphere and phyllosphere bacterial communities to elevated CO2 and soil temperature in a rice paddy (2015) (40)
[Rice-wheat rotational FACE platform. I. System structure and control]. (2002) (40)
Impact of elevated CO2 concentration on inter-subspecific hybrid rice cultivar Liangyoupeijiu under fully open-air field conditions (2009) (40)
Availability of soil nitrogen and phosphorus in a typical rice–wheat rotation system under elevated atmospheric [CO2] (2007) (38)
Effect of elevated CO2 and N fertilisation on soil nematode abundance and diversity in a wheat field (2007) (37)
Elevated CO2 cannot compensate for japonica grain yield losses under increasing air temperature because of the decrease in spikelet density (2018) (36)
Residue incorporation and N fertilization affect the response of soil nematodes to the elevated CO2 in a Chinese wheat field (2009) (36)
Effect of elevated atmospheric CO2 concentration on soil and root respiration in winter wheat by using a respiration partitioning chamber (2007) (36)
CO2 mitigation potential in farmland of China by altering current organic matter amendment pattern (2010) (35)
Response of rice yield and yield components to elevated [CO2]: A synthesis of updated data from FACE experiments (2020) (34)
Elevated CO2 effects on nutrient competition between a C3 crop (Oryza sativa L.) and a C4 weed (Echinochloa crusgalli L.) (2010) (33)
[Dynamics and ecological significance of nitrogen wet-deposition in Taihu Lake region--taking Changshu Agroecological Experiment Station as an example]. (2004) (33)
Elevated ground-level O3 negatively influences paddy methanogenic archaeal community (2013) (32)
Effects of Different Biochars on Pinus elliottii Growth, N Use Efficiency, Soil N2O and CH4 Emissions and C Storage in a Subtropical Area of China (2017) (32)
Soil aluminum oxides determine biological nitrogen fixation and diazotrophic communities across major types of paddy soils in China (2019) (31)
Comparison of crop yield sensitivity to ozone between open‐top chamber and free‐air experiments (2018) (31)
The interactive effects of elevated ozone and wheat cultivars on soil microbial community composition and metabolic diversity. (2015) (31)
Distinct fungal successional trajectories following wildfire between soil horizons in a cold-temperate forest. (2020) (31)
Effects of salinity on food intake, growth, and survival of pufferfish (Fugu obscurus) (2004) (30)
Greenhouse gas fluxes and NO release from a Chinese subtropical rice‐winter wheat rotation system under nitrogen fertilizer management (2013) (30)
Investigations on spikelet formation in hybrid rice as affected by elevated tropospheric ozone concentration in China (2012) (29)
Arbuscular Mycorrhizal Fungi Alleviate Ozone Stress on Nitrogen Nutrition of Field Wheat (2013) (29)
Elevated atmospheric [CO2] stimulates sugar accumulation and cellulose degradation rates of rice straw (2016) (29)
The impact of elevated tropospheric ozone on grain quality of hybrid rice: A free-air gas concentration enrichment (FACE) experiment (2012) (28)
The influence of free-air CO2 enrichment on microorganisms of a paddy soil in the rice-growing season (2007) (28)
Response of leaf endophytic bacterial community to elevated CO2 at different growth stages of rice plant (2015) (27)
Legacy effects of elevated ozone on soil biota and plant growth (2015) (26)
Apoplastic antioxidant enzyme responses to chronic free-air ozone exposure in two different ozone-sensitive wheat cultivars. (2014) (26)
The influence of ozone pollution on CO2, CH4, and N2O emissions from a Chinese subtropical rice–wheat rotation system under free-air O3 exposure (2015) (25)
Transcriptome Reveals the Rice Response to Elevated Free Air CO2 Concentration and TiO2 Nanoparticles. (2019) (25)
Seed vigor of contrasting rice cultivars in response to elevated carbon dioxide (2015) (24)
Effect of free-air atmospheric CO2 enrichment on dark respiration of rice plants (Oryza sativa L.) (2006) (23)
Nitric oxide emissions from rice-wheat rotation fields in eastern China: effect of fertilization, soil water content, and crop residue (2010) (23)
Responses of rice paddy micro-food webs to elevated CO2 are modulated by nitrogen fertilization and crop cultivars (2017) (23)
Effect of Nitrogen Supply on Carbon Dioxide–Induced Changes in Competition between Rice and Barnyardgrass (Echinochloa crus-galli) (2008) (22)
Combined cadmium and elevated ozone affect concentrations of cadmium and antioxidant systems in wheat under fully open-air conditions. (2012) (22)
Elevated ozone effects on soil nitrogen cycling differ among wheat cultivars (2016) (21)
[Effects of free-air CO2 enrichment (FACE) on dry matter production and allocation in wheat]. (1981) (20)
Evaluation of ozone uptake by the rice canopy with the multi-layer model (2008) (20)
Characteristics of Photosynthesis in Wheat Cultivars with Different Sensitivities to Ozone Under O3-Free Air Concentration Enrichment Conditions (2009) (20)
Diurnal variation of apoplastic ascorbate in winter wheat leaves in relation to ozone detoxification. (2015) (20)
Effects of elevated ozone concentration on CH4 and N2O emission from paddy soil under fully open‐air field conditions (2015) (20)
Ribulose-1,5-bisphosphate regeneration limitation in rice leaf photosynthetic acclimation to elevated CO2 (2008) (19)
Effects of elevated ground-level ozone on paddy soil bacterial community and assembly mechanisms across four years. (2019) (19)
Free-air CO2 enrichment (FACE) enhances the biodiversity of purple phototrophic bacteria in flooded paddy soil (2009) (19)
Polystyrene microplastics alleviate the effects of sulfamethazine on soil microbial communities at different CO2 concentrations. (2021) (19)
Divergent responses of methanogenic archaeal communities in two rice cultivars to elevated ground-level O3. (2016) (19)
Fate and ecological effects of decabromodiphenyl ether in a field lysimeter. (2013) (18)
Vulnerability of lodging risk to elevated CO2 and increased soil temperature differs between rice cultivars (2013) (18)
Soil microbial residue dynamics after 3-year elevated O3 exposure are plant species-specific (2014) (18)
A phototrophy-driven microbial food web in a rice soil (2011) (17)
Responses of dissolved organic carbon and dissolved nitrogen in surface water and soil to CO2 enrichment in paddy field (2011) (17)
Elevated tropospheric ozone increased grain protein and amino acid content of a hybrid rice without manipulation by planting density. (2015) (17)
Effects of CO2 enrichment and spikelet removal on rice quality under open-air field conditions (2016) (17)
Environmental fate of phenanthrene in lysimeter planted with wheat and rice in rotation. (2011) (17)
Elevated ozone increases nitrifying and denitrifying enzyme activities in the rhizosphere of wheat after 5 years of fumigation (2015) (17)
Effects of elevated atmospheric CO2 on soil enzyme activities at different nitrogen application treatments (2006) (16)
Ozone pollution influences soil carbon and nitrogen sequestration and aggregate composition in paddy soils (2014) (16)
Ten years of elevated atmospheric CO2 doesn't alter soil nitrogen availability in a rice paddy (2016) (16)
Ozone exposure- and flux-based response relationships with photosynthesis of winter wheat under fully open air condition. (2017) (16)
Elevated Ground-Level O3 Changes the Diversity of Anoxygenic Purple Phototrophic Bacteria in Paddy Field (2011) (16)
Divergent Responses of the Diazotrophic Microbiome to Elevated CO2 in Two Rice Cultivars (2018) (16)
Influences of free-air CO2 enrichment (FACE), nitrogen fertilizer and crop residue incorporation on CH4 emissions from irrigated rice fields (2012) (16)
Field experiments and model simulation based evaluation of rice yield response to projected climate change in Southeastern China. (2020) (15)
[Responses of rice growth and development to elevated near-surface layer ozone (O3) concentration: a review]. (2008) (15)
Large losses of ammonium-nitrogen from a rice ecosystem under elevated CO2 (2020) (15)
Effects of tillage during the nonwaterlogged period on nitrous oxide and nitric oxide emissions in typical Chinese rice‐wheat rotation ecosystems (2010) (15)
Responses of rice growth to copper stress under free-air CO2 enrichment (FACE) (2007) (15)
Rice (Oryza sativa L.) growth and nitrogen distribution under elevated CO2 concentration and air temperature (2017) (15)
Modeling Stomatal Conductance and Photosynthesis of a Flag Leaf of Wheat under Elevated O3 Concentration (2009) (14)
The potential role of sucrose transport gene expression in the photosynthetic and yield response of rice cultivars to future CO2 concentration (2019) (14)
[Responses of rice (Oryza sativa) growth and its C, N and P composition to FACE (free-air carbon dioxide enrichment) and N, P fertilization]. (2002) (13)
Plant-mediated effects of elevated CO2 and rice cultivars on soil carbon dynamics in a paddy soil. (2019) (13)
Temporal responses of microorganisms and native organic carbon mineralization to 13C-glucose addition in a sandy loam soil with long-term fertilization (2016) (13)
Influence of the environmental behavior and ecological effect of cropland heavy metal contaminants by CO2 enrichment in atmosphere (2006) (13)
Elevated atmospheric CO2 reduces yield‐scaled N2O fluxes from subtropical rice systems: Six site‐years field experiments (2020) (11)
A fast chemical oxidation method for predicting the long-term mineralization of biochar in soils. (2020) (11)
How do elevated atmosphere CO2 and temperature alter the physiochemical properties of starch granules and rice taste? (2020) (11)
[Determination of net exchange of CO2 between paddy fields and atmosphere with static poaque-chamber-based measurements]. (2002) (11)
Effect of Elevated CO2 on the Growth and Macronutrient (N, P and K) Uptake of Annual Wormwood (Artemisia annua L.) (2016) (10)
Leaf Morphology and Ultrastructure Responses to Elevated O3 in Transgenic Bt (cry1Ab/cry1Ac) Rice and Conventional Rice under Fully Open-Air Field Conditions (2013) (10)
Modeling methane emissions from paddy rice fields under elevated atmospheric carbon dioxide conditions (2010) (10)
Elevated CO2 does not necessarily enhance greenhouse gas emissions from rice paddies. (2021) (10)
Improvements of the ozone dose response functions for predicting the yield loss of wheat due to elevated ozone (2011) (10)
[Effect of free-air CO2 enrichment (FACE) on nitrogen accumulation and utilization efficiency in rice (Oryza sativa)]. (2002) (9)
Analysis of QTLs for Flag Leaf Shape and Its Response to Elevated CO2 in Rice (Oryza sativa) (2007) (9)
Nitrogen supply mitigates the effects of elevated [O 3 ] on photosynthesis and yield in wheat: Nitrogen supply mitigates the effects of elevated [O 3 ] on photosynthesis and yield in wheat (2011) (9)
Effects of free-air CO2 enrichment (FACE) and nitrogen (N) supply on N uptake and utilization of indica and japonica cultivars (Oryza sativa L.) (2020) (9)
Four years of free-air CO2 enrichment enhance soil C concentrations in a Chinese wheat field. (2009) (9)
Cultivar specific plant-soil feedback overrules soil legacy effects of elevated ozone in a rice-wheat rotation system (2016) (9)
Elevated CO2-induced changes in cytokinin and nitrogen metabolism are associated with different responses in the panicle architecture of two contrasting rice genotypes (2019) (9)
Elevated O3 and wheat cultivars influence the relative contribution of plant and microbe-derived carbohydrates to soil organic matter (2015) (8)
Detection of elevated CO2 responsive QTLs for yield and its components in rice (2008) (8)
Detecting ozone effects in four wheat cultivars using hyperspectral measurements under fully open-air field conditions (2016) (8)
Phenolic Compounds and Antioxidant Ability Responses to Experimental Free-Air Ozone Exposure in Two Wheat Cultivars (2014) (8)
Identification of Formate-Metabolizing Bacteria in Paddy Soil by DNA-Based Stable Isotope Probing (2012) (8)
Different responses of transgenic Bt rice and conventional rice to elevated ozone concentration (2017) (8)
Diversity of aerobic anoxygenic phototrophic bacteria in paddy soil and their response to elevated atmospheric CO2 (2010) (7)
[Photosynthetic damage induced by elevated O3 in two varieties of winter wheat with free air controlled enrichment approach]. (2009) (6)
[Effects of free-air CO2 enrichment on nitrogen uptake and utilization of wheat]. (2007) (6)
Paddy System with a Hybrid Rice Enhances Cyanobacteria Nostoc and Increases N2 Fixation (2019) (6)
[Effect of free-air CO2 enrichment on biomass accumulation and distribution in rice]. (2003) (5)
[Effects of free-air CO2 enrichment on phosphine emission from rice field]. (2009) (5)
Characteristics of Photosynthesis in Wheat Cultivars with Different Sensitivi-ties to Ozone under O 3 -Free Air Concentration Enrichment Conditions: Characteristics of Photosynthesis in Wheat Cultivars with Different Sensitivi-ties to Ozone under O 3 -Free Air Concentration Enrichment Conditions (2009) (5)
[Effects of elevated CO2 concentration on grain filling capacity and quality of rice grains located at different positions on a panicle.] (2019) (5)
Contrasting Response Patterns of Rice Phyllosphere Bacterial Taxa to Elevated CO2 (2014) (5)
[Rice-wheat rotational FACE platform. II. Data processing software package]. (2002) (5)
[Response and acclimation of photosynthesis in rice leaves to free-air CO2 enrichment (FACE)]. (2002) (5)
Elevated CO2 concentration modifies the effects of organic fertilizer substitution on rice yield and soil ARGs. (2020) (5)
[Nitrogen and phosphorus input from wet deposition in Taihu Lake region: a case study in Changshu Agro-ecological Experimental Station]. (2009) (5)
Effects of free-air CO2 enrichment on adventitious root development of rice under low and normal soil nitrogen levels (2014) (5)
Yield components and its conformation responded to elevated atmospheric CO 2 in three rice ( Oryza sativa L.) generations (2010) (5)
Warm air temperatures increase photosynthetic acclimation to elevated CO2 concentrations in rice under field conditions (2021) (5)
Responses of rice qualitative characteristics to elevated CO2 and higher temperature: Implications for global nutrition. (2020) (5)
Influence of rice cultivars on soil bacterial microbiome under elevated carbon dioxide (2019) (5)
Effects of Elevated Ozone Concentration on Starch and Starch Synthesis Enzymes of Yangmai 16 Under Fully Open-Air Field Conditions (2013) (5)
Alterations in Source-Sink Relations Affect Rice Yield Response to Elevated CO2: A Free-Air CO2 Enrichment Study (2021) (5)
[Dynamic model of rice tiller in FACE]. (2006) (4)
[Effects of ozone pollution on the accumulation and distribution of dry matter and biomass carbon of different varieties of wheat]. (2012) (4)
Elevated atmospheric CO2 reduces CH4 and N2O emissions under two contrasting rice cultivars from a subtropical paddy field in China (2022) (4)
QTL for yield and its components responded to elevated CO2 in rice (Oryza sativa L.). (2005) (4)
[Effects of free-air CO2 enrichment (FACE) on yield formation of wheat]. (2007) (4)
Elevated CO2 accelerates polycyclic aromatic hydrocarbon accumulation in a paddy soil grown with rice (2018) (4)
Effect of Atmospheric CO2 Enrichment on Soil Respiration in Winter Wheat Growing Seasons of a Rice-Wheat Rotation System (2013) (4)
[Effects of O3-FACE(ozone-free air control enrichment) on gas exchange and chlorophyll fluorescence of rice leaf]. (2010) (4)
Response of phyllosphere bacterial communities to elevated CO2 during rice growing season (2014) (4)
[Quantification of non-point sources phosphorus pollution in key protection area of Taihu Lake]. (2004) (3)
Effect of free-air CO2 enrichment on nematode communities in a Chinese farmland ecosystem. (2005) (3)
[Measurement of CO2 profiles in non-waterlogged soil in a FACE study]. (2002) (3)
Elevated CO2 levels alleviated toxicity of ZnO nanoparticles to rice and soil bacteria. (2021) (3)
Responses of Antioxidant Enzymes to Chronic Free-Air Ozone Stress in Rice (Oryza sativa L.) Cultivars with Different Ozone-Sensitivities (2019) (3)
Effects of increased residue biomass under elevated CO2 on carbon and nitrogen in soil aggregate size classes (rice-wheat rotation system, China) (2009) (3)
[Response of rice grain quality traits to free-air CO2 enrichment]. (2004) (3)
Changes in microelement availability in a paddy field exposed to long-term atmospheric CO2 enrichment (2020) (3)
Leaf characteristics of rice cultivars with a stronger yield response to projected increases in CO2 concentration. (2020) (3)
Impact of Elevated CO2 and Reducing the Source-Sink Ratio by Partial Defoliation on Rice Grain Quality – A 3-Year Free-Air CO2 Enrichment Study (2021) (3)
[Leaf photosynthetic acclimation of Echinochloa crusgalli grown in rice field to free-air CO2 enrichment (FACE)]. (2002) (3)
[Effects of free-air CO2 enrichment (FACE) on yield formation in rice (Oryza sativa)]. (2002) (3)
[Responses of diurnal variation of flag-leaf photosynthesis and photosynthetic pigment content to elevated atmospheric CO2 concentration and temperature of Japonica rice during late growth stage: A FACE study.] (2018) (3)
[Arbuscular mycorrhizal fungal effects on wheat growth in response to elevated tropospheric O3 concentration]. (2009) (3)
Effects of elevated atmospheric CO2 concentration on photosynthsis of hybrid rice varieties in cloudy and sunny days: A FACE study. (2019) (3)
Elevated O 3 and wheat cultivars in fl uence the relative contribution of plant and microbe-derived carbohydrates to soil organic matter (2014) (2)
[Contribution of wheat rhizosphere respiration to soil respiration under elevated atmospheric CO2 and nitrogen application]. (2011) (2)
Soil Organic Carbon Stocks, Changes and CO2 Mitigation Potential by Alteration of Residue Amendment Pattern in China (2014) (2)
Elevated CO2 aggravated polystyrene microplastics effects on the rice-soil system under field conditions. (2022) (2)
Combination of Elevated CO2 Levels and Soil Contaminants’ Stress in Wheat and Rice (2015) (2)
Numerical Simulation of Root Growth Dynamics of CO2-Enriched Hybrid Rice Cultivar Shanyou 63 Under Fully Open-Air Field Conditions (2013) (2)
[Three successive extractions reduce quantification bias of microbial communities associated with incomplete DNA recovery in soil]. (2012) (2)
Impact of Elevated Ozone Concentration on Yield Formation of Four Chinese Rice Cultivars under Fully Open-air Field Conditions (2008) (2)
[Effects of ozone stress on photosynthesis and dry matter production of rice II -you 084 under different Planting densities]. (2015) (2)
Elevated CO2 exacerbates effects of TiO2 nanoparticles on rice (Oryza sativa L.) leaf transcriptome and soil bacteria. (2022) (2)
[Effects of elevated atmospheric CO2 on paddy soil nitrogen content during rice season]. (2010) (2)
[Effects of elevated atmospheric ozone concentration on flag leaf photosynthetic pigment contents of wheat]. (2012) (1)
[Effects of elevated ozone concentration on wheat grain protein components with FACE system]. (2010) (1)
[Effect of free-air CO2 enrichment (FACE) on leaf nitrate reductase activity of Oryza sativa L. cultivar Wuxianjing 14]. (2006) (1)
[Impacts of elevated atmospheric ozone concentration on flag leaf microscopic structure of wheat: a field study with FACE system]. (2012) (1)
No Down-Regulation of Photosynthesis in the Offspring of Rice Grown Under Free-Air CO2 Enrichment (FACE) (2008) (1)
[Effects of free-air CO2 enrichment (FACE) on phosphorus nutrition of Oryza sativa at its different growth stages]. (2005) (1)
[Field measurement of NO and NO2 exchanges between cultivated lands and the atmosphere in a FACE study]. (2002) (1)
[Effects of free-air CO2 enrichment on rice canopy microlimate]. (2002) (1)
QTL analysis for heading date of rice under free air CO_(2) enrichment conditions (2006) (1)
[Effect of FACE on competition between a C3 crop (rice, Oryza sativa) and a C4 weed (barnyardgrass, Echinochloa crusgalli)]. (2002) (1)
[Effects of free air CO2 enrichment on rice canopy energy balance]. (2003) (1)
[Effects of elevated atmospheric CO2 on CH4 and N2O emissions from paddy fields]. (2002) (1)
Impact of free air ozone concentration enrichment on cooked rice (Wuyunjing 21) texture and palatability: Impact of free air ozone concentration enrichment on cooked rice (Wuyunjing 21) texture and palatability (2013) (1)
Response of soil, leaf endosphere and phyllosphere bacterial communities to elevated CO2 and soil temperature in a rice paddy (2015) (0)
[Root activity and nitrogen assimilation of rice (Oryza sativa) under free-air CO2 enrichment]. (2005) (0)
Elevated Co2 Exacerbates Effects of Tio2 Nanoparticles on Rice (Oryza Sativa L. Cv. Yongyou) Leaf Transcriptome and Soil Bacteria (2022) (0)
Impact of biochar application on nitrogen nutrition of rice, greenhouse-gas emissions and soil organic carbon dynamics in two paddy soils of China (2013) (0)
Evaluation of Ozone Uptake by Vegetation with the Multi-layer Model (2008) (0)
Soil microbial residue dynamics after 3-year elevated O3 exposure are plant species-specific (2013) (0)
Effects of Increased Ozone Concentration on Grain Yield and Quality in Four Varieties of Winter Wheat in China (2008) (0)
Effects of Elevated Ozone on Soil Microbial Community Composition and Metabolic Diversity Depending on the Ozone-Tolerance of Wheat Cultivars (2014) (0)
Elevated ozone increases nitrifying and denitrifying enzyme activities in the rhizosphere of wheat after 5 years of fumigation (2015) (0)
Effect of free--air CO_(2) enrichment on root activity of {\sl Japonica} rice ({\sl Oryza sativa} L. ) cultivar Wuxiangjing 14 (2006) (0)
[Elevated atmospheric CO2 and crop/weed competition]. (2002) (0)
Effects of Straw and Simulated Root Exudates on Aggregate Dynamics and Aggregate-Associated Carbon in Consideration of FACE Condition (2013) (0)
Carbon dioxide exchange over the double cropping field with winter-wheat and summer-rice in China (2008) (0)
[Simulation of rice canopy evapotranspiration and water use efficiency under free-air CO2 enrichment]. (2008) (0)
[Dry matter accumulation and allocation models of rice in FACE]. (2006) (0)
Effects of elevated atmospheric CO2 on nematode trophic groups in a Chinese paddy-field ecosystem. (2002) (0)
Causes of variation among rice models in yield response to CO2 examined with Free-Air CO2 Enrichment and growth chamber experiments (2017) (0)
The Impact of Free-Air Co2 Enrichment (Face) on Microelements Concentration in Soil Solution in the Rice Season (2011) (0)
Diurnal and Seasonal Variations of Ozone Fluxes over Rice and Wheat Field in Eastern China (2008) (0)
[Effect of free-air CO2 enrichment (FACE) on spikelets differentiation and retrogression in rice (Oryza sativa)]. (2002) (0)
Annual emissions of nitrous oxide and nitric oxide from rice-wheat rotation and vegetable fields: a case study in the Tai-Lake region, China (2012) (0)
Influences of free-air CO2 enrichment (FACE), nitrogen fertilizer and crop residue incorporation on CH4 emissions from irrigated rice fields (2012) (0)
[Effects of increasing surface ozone concentration on spikelet formation of hybrid rice cultivars]. (2009) (0)
Ozone pollution influences soil carbon and nitrogen sequestration and aggregate composition in paddy soils (2014) (0)
Biochar Can Mitigate Farmland Global Warming Potential and Remediate Pops Polluted Soil (2014) (0)

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