Journal of Environmental Quality

Papers
(The TQCC of Journal of Environmental Quality is 5. The table below lists those papers that are above that threshold based on CrossRef citation counts [max. 250 papers]. The publications cover those that have been published in the past four years, i.e., from 2021-11-01 to 2025-11-01.)
ArticleCitations
Emissions of hydrogen sulfide from a western open‐lot dairy67
Elevated levels of anthropogenic antibiotic resistance gene marker, sul1, linked with extreme fecal contamination and poor water quality in wastewater‐receiving ponds53
Cover Image, Volume 51, Issue 537
Copper induces nitrification by ammonia‐oxidizing bacteria and archaea in pastoral soils34
Subsurface phosphorus and nitrogen loss following liquid dairy manure and commercial fertilizer application on a clay soil in northwest Ohio25
Delaying application and injecting nitrogen fertilizer with urease and nitrification inhibitors decreased nitrous oxide emissions and enhanced corn yields24
Impact of pyrolysis temperature on phosphorus plant availability in biochar—A pot experiment using 33P dilution23
Chesapeake Bay Watershed residents’ support for varied scenarios for agricultural systems in urbanized landscapes23
Shallow‐lake sediments release nutrients by complete destratification events23
CO2 flux in a wheat‐soybean succession in subtropical Brazil: A carbon sink22
20
Issue Information20
Spatiotemporal patterns of PFAS in water and crop tissue at a beneficial wastewater reuse site in central Pennsylvania19
Effect of olive‐processing technology on the utilization of olive mill pomace as a soil amendment19
The effect of biogas ebullition on ammonia emissions from animal manure–processing lagoons18
Is it raining PFAS in France? An analysis of 52 PFAS at nanogram per liter levels in French rainwaters during autumn season18
Issue Information17
The LTAR Grazing Land Common Experiment at Walnut Gulch Experimental Watershed17
Evaluation of nutrient assimilative capacity in waterfowl impoundments: The role of environmental stressors17
Challenges in linking soil health to edge‐of‐field water quality across the Great Lakes basin16
Cover Image, Volume 50, Issue 616
Strategic tillage of no‐till decreased surface and subsurface losses of dissolved phosphorus16
Exploring management and environment effects on edge‐of‐field phosphorus losses with linear mixed models15
Mechanism evolution and prediction of carbamazepine sorption by mangrove plant residue–derived biochars15
Connecting the soil health–water quality nexus under surface‐irrigated conservation tillage15
Recipients of 2022 JEQ Editor's Citation for Excellence named15
The LTAR Common Experiment at Upper Chesapeake Bay: Integrated14
The importance of consensus science to managing phosphorus in the environment: SERA‐17 and the legacy of Andrew Sharpley14
Comparison of microbial communities in replicated woodchip bioreactors14
Thanks to our 2023 reviewers14
Using RZWQM2‐P to capture tile drainage phosphorus dynamics in Ohio13
On the compounding of nitrate loads and discharge13
Saturated buffers: Improvements and issues13
Benthic nitrate removal capacity in marine mangroves of Guadeloupe, Lesser Antilles13
The LTAR Grazing Land Common Experiment at Platte River High Plains Aquifer13
Adsorption characteristics of N‐rGO for multiple representative trace antibiotics in water13
Denitrification potential of surface soils of constructed wetlands in Newtown Creek, an urban superfund site13
Soil organic matter can delay—but not eliminate—leaching of neonicotinoid insecticides13
Cover Image, Volume 52, Issue 112
The longevity of fencing out livestock as a method of decreasing contaminant concentrations in a headwater stream12
Multidrug‐resistant Escherichia coli isolated from cleaned and disinfected poultry houses prior to day‐old chick placement11
Enhanced efficiency fertilizers, potato production, and nitrate leaching in the Wisconsin Central Sands11
Utility of near‐surface phenology in estimating productivity and evapotranspiration across diverse ecosystems11
Establishing three warm‐season turfgrasses with tailored water: II. Root development, nitrate accumulation in plant tissue and soil, and relationship with leaching11
Influence of climate, topography, and soil type on soil extractable phosphorus in croplands of northern glacial‐derived landscapes11
Fertilizer source and soil properties affect soil test phosphorus and relationships with phosphorus losses in snowmelt runoff11
Greenhouse gas emissions from soils in corn‐based cropping systems11
Determination of bioavailable arsenic threshold and validation of modeled permissible total arsenic in paddy soil using machine learning11
The LTAR Cropland Common Experiment at Central Mississippi River Basin10
Issue Information10
Evaporative loss and environmental impact of covers on water storages: A review10
Effect of poultry litter soil amendment on antibiotic‐resistant Escherichia coli10
New phosphorus losses via tile drainage depend on fertilizer form, placement, and timing10
Removal of nutrients from aquaculture wastewater using cattail (Typha spp.) constructed wetlands10
Uncertainty in phosphorus fluxes and budgets across the US long‐term agroecosystem research network10
Nitrogen removal performance in roadside stormwater bioretention cells amended with drinking water treatment residuals10
The LTAR Cropland Common Experiment in the Upper Chesapeake Bay10
Representing soil health practice effects on soil properties and nutrient loss in a watershed‐scale hydrologic model10
Biochar addition reduces non‐CO2 greenhouse gas emissions during composting of human excreta and cattle manure10
Using syringe filtration after lab‐scale adsorption processes potentially overestimates PFAS adsorption removal efficiency from non‐conventional irrigation water9
Soil hydro‐physical variables and crop residues determinate runoff, soil loss, and glyphosate and AMPA concentration in the aqueous phase under simulated rainfall events9
Seasonal variability of nitrate concentrations below the root zone: A monthly predictive modeling approach9
Review and update of a Nutrient Transfer model used for estimating nitrous oxide emissions from complex grazed landscapes, and implications for nationwide accounting9
Influence of earthworm population density on the performance of vermifiltration for treating liquid dairy manure9
Fenton oxidation of biochar improves retention of cattle slurry nitrogen9
Soil lead, zinc, and copper in two urban forests as influenced by highway proximity9
9
A high‐resolution monitoring station for the in situ assessment of nitrate‐related redox processes at an agricultural site9
Microplastics in composts, digestates, and food wastes: A review9
Nitrous oxide emissions are driven by environmental conditions rather than nitrogen application methods in a perennial hayfield8
Changes in microbial communities in soil treated with organic or conventional N sources8
A conceptual model for dissolved P mobilization from legacy sources8
Surveillance of PFAS in sludge and biosolids at 12 water resource recovery facilities8
Nascently generated microplastics in freshwater stream are colonized by bacterial communities from stream and riparian sources8
Methane emission reduction by adding sulfate to liquid dairy manure8
Pennycress reduces potential for nutrient loss in Illinois8
Spatial variability of nitrous oxide emissions from croplands and unmanaged natural ecosystems across a large environmental gradient8
Distribution of livestock sectors in Canada: Implications for manureshed management8
Nitrogen and phosphorus removal in a bioretention cell experiment receiving agricultural runoff from a dairy farm production area during third and fourth years of operation8
Impact of surface‐applied liquid manure on the drainage resistance profile of an agricultural tile‐drained clay till field8
Engaging stakeholders to strengthen coproduction of knowledge in the Long‐Term Agroecosystem Research (LTAR) indicator framework7
Crop performance and profitability for the initial transition years of a regenerative cropping system in the Upper Midwest United States7
Fate and transport of fragmented and spherical microplastics in saturated gravel and quartz sand7
Enhancing dissolved inorganic phosphorous capture by gypsum‐incorporated biochar: Synergic performance and mechanisms7
Scaling up conservation agriculture: An exploration of challenges and opportunities through a stakeholder engagement process7
Potential areas of crop residue burning contributing to hazardous air pollution in Delhi during the post‐monsoon season7
Ammonia and greenhouse gas emissions from beef feedlot surface material treated with aluminum sulfate (alum) or microbial amendments7
Pig slurry organic matter transformation and methanogenesis at ambient storage temperatures7
Potential for managing pool levels in a flood‐control reservoir to increase nitrate‐nitrogen load reductions7
Optimizing pXRF sample preparation for in situ soil screening: A regulatory framework perspective7
Ineffectiveness of phosphorus‐containing amendments to reduce Pb bioaccessibility in an urban alkaline soil7
Nitrate losses across 29 Iowa watersheds: Measuring long‐term trends in the context of interannual variability6
Flooding‐induced inorganic phosphorus transformations in two soils, with and without gypsum amendment6
Modeling the sorption of Ni(II) and Zn(II) by Mn oxide–coated sand: Equilibrium and kinetic approaches6
Nitrous oxide emissions from soybean in response to drained and undrained soils and previous corn nitrogen management6
Diurnal variation in methane emission from a rice paddy due to ebullition6
Phosphorus sources, forms, and abundance as a function of streamflow and field conditions in a Maumee River tributary, 2016–20196
Saturated buffer design flow and performance in Illinois6
6
The Agricultural Conservation Planning Framework Financial and Nutrient Reduction Tool: A planning tool for cost effective conservation6
Chronic enrichment affects nitrogen removal in tidal freshwater river and estuarine creek sediments6
Effects of whole‐orchard recycling on nitrate leaching potential in almond production systems6
Erratum to “A conceptual model for dissolved P mobilization from legacy sources”6
6
Impact of tillage, cover crop, and in situ bioreactors on nutrient loss from an artificially drained Midwestern Mollisol6
The LTAR Cropland Common Experiment at the Gulf Atlantic Coastal Plain6
Soil stressors on ecophysiology of bauxite mine impacted soil: Heavy metal–acidity–organic matter nexus6
Field‐scale evaluation of ecosystem service benefits of bioenergy switchgrass6
Carbon and nitrogen dynamics in agricultural soil after application of cattle manure and eastern redcedar wood chips6
Long‐term changes in riparian connectivity and groundwater chemistry in an urban watershed6
Pig manure degradation and carbon emission: Measuring and modeling combined aerobic–anaerobic transformations6
The LTAR Cropland Common Experiment at Platte River/High Plains Aquifer6
Optimizing sampling across transect‐based methods improves the power of agroecological monitoring data6
Linking agricultural conservation to water quality outcomes in the United States at multiple scales: Do we have the information we need?5
Cover Image, Volume 51, Issue 65
Resolving new and old phosphorus source contributions to subsurface tile drainage with weighted regressions on discharge and season5
Sodium hypochlorite as an oxidizing agent for removal of soil organic matter before microplastics analyses5
Thanks to our 2022 reviewers5
ECB‐WQ: A Long‐Term Agroecosystem Research (LTAR)—Eastern Corn Belt node field‐scale water quality dataset  5
A short history of the phosphorus index and Andrew Sharpley's contributions from inception through development and implementation5
The LTAR Cropland Common Experiment at the Texas Gulf5
Release of phosphorus and metal(loid)s from manured soils to floodwater during a laboratory simulation of snowmelt flooding5
Stream pathogenic bacteria levels rebound post‐population control of wild pigs5
Soil nutrients and plant uptake parameters as related to greenhouse gas emissions5
Tillage and manure effects on runoff nitrogen and phosphorus losses from frozen soils5
Lack of wastewater treatment in a small town drives the spread of ESBL‐producing Escherichia coli in irrigation waters5
Dynamic prediction and quantitative assessment of carbon emissions from animal husbandry: A case study of inner mongolia autonomous region, China5
Mechanisms underlying episodic nitrate and phosphorus leaching from poorly drained agricultural soils5
Assessment of phosphorus status in a calcareous soil receiving long‐term application of chemical fertilizer and different forms of swine manures5
Soil organic carbon dynamics shift by incorporating wheat straw in paddy soil in China5
Long‐term sulfamethazine leaching simulation in two different soils using the MACRO model5
Application timing optimization of lignite‐derived humic substances for three agricultural plant species and soil fertility5
Toward a transdisciplinary and unifying definition of legacy phosphorus5
0.055711030960083