Department of Earth System Science
Parent: UC Irvine
eScholarship stats: Breakdown by Item for May through August, 2024
| Item | Title | Total requests | Download | View-only | %Dnld |
|---|---|---|---|---|---|
| 6x77r7m1 | Radiocarbon dating of the Shroud of Turin | 1,768 | 795 | 973 | 45.0% |
| 07x6p3bk | Methods of Tail Dependence Estimation | 630 | 16 | 614 | 2.5% |
| 6xw5g085 | Solutions for a cultivated planet | 600 | 513 | 87 | 85.5% |
| 7rx4413n | Climate and atmospheric history of the past 420,000 years from the Vostok ice core, Antarctica | 550 | 145 | 405 | 26.4% |
| 9gm7074q | Primary Production of the Biosphere: Integrating Terrestrial and Oceanic Components | 547 | 290 | 257 | 53.0% |
| 16109441 | Net-zero emissions energy systems | 343 | 329 | 14 | 95.9% |
| 49r8v2b5 | Persistence of soil organic matter as an ecosystem property | 212 | 168 | 44 | 79.2% |
| 30p9x5wd | Precipitation areal-reduction factor estimation using an annual-maxima centered approach | 190 | 24 | 166 | 12.6% |
| 27f002c7 | Systems integration for global sustainability | 186 | 168 | 18 | 90.3% |
| 68q6540x | Leverage points for improving global food security and the environment | 185 | 164 | 21 | 88.6% |
| 6j55p5kh | Markov chain Monte Carlo simulation using the DREAM software package: Theory, concepts, and MATLAB implementation | 168 | 135 | 33 | 80.4% |
| 52z028wn | Terrestrial ecosystem production: A process model based on global satellite and surface data | 167 | 119 | 48 | 71.3% |
| 5kb8309g | Marine Aerosols | 165 | 119 | 46 | 72.1% |
| 21r294gk | Processes and patterns of oceanic nutrient limitation | 163 | 62 | 101 | 38.0% |
| 23c777jm | Transport impacts on atmosphere and climate: Aviation | 163 | 45 | 118 | 27.6% |
| 4fk4p5r3 | Global net primary production: Combining ecology and remote sensing | 161 | 77 | 84 | 47.8% |
| 9t31320h | Dynamic modeling of compressed gas energy storage to complement renewable wind power intermittency | 160 | 129 | 31 | 80.6% |
| 3sv066q5 | Application of a Conceptual Hydrologic Model in Teaching Hydrologic Processes | 153 | 135 | 18 | 88.2% |
| 1bf6v7zf | A global model of natural volatile organic compound emissions | 149 | 78 | 71 | 52.3% |
| 3487g4mj | Reduced carbon emission estimates from fossil fuel combustion and cement production in China | 146 | 118 | 28 | 80.8% |
| 3zg7f6c9 | Toward improved calibration of hydrologic models: Multiple and noncommensurable measures of information | 145 | 29 | 116 | 20.0% |
| 58m609bn | Efficiency of electrochemical systems | 143 | 5 | 138 | 3.5% |
| 5w80w42r | Temporally Compound Heat Wave Events and Global Warming: An Emerging Hazard | 139 | 12 | 127 | 8.6% |
| 9m41r1mf | Trends in the sources and sinks of carbon dioxide | 136 | 65 | 71 | 47.8% |
| 1kv3p879 | Sharing a quota on cumulative carbon emissions | 135 | 33 | 102 | 24.4% |
| 3078s5f8 | Reply to: Microbial dark matter could add uncertainties to metagenomic trait estimations | 134 | 6 | 128 | 4.5% |
| 22577805 | Satellite-based estimates of groundwater depletion in India | 131 | 114 | 17 | 87.0% |
| 45b3k4t0 | Future CO2 Emissions and Climate Change from Existing Energy Infrastructure | 131 | 106 | 25 | 80.9% |
| 91m9t1h3 | DREAM(D): an adaptive Markov Chain Monte Carlo simulation algorithm to solve discrete, noncontinuous, and combinatorial posterior parameter estimation problems | 130 | 11 | 119 | 8.5% |
| 2k35x4vw | Experimental determination of the diffusion coefficient of dimethylsulfide in water | 129 | 61 | 68 | 47.3% |
| 842002vz | China's international trade and air pollution in the United States | 129 | 63 | 66 | 48.8% |
| 42d5d6cg | General Review of Rainfall-Runoff Modeling: Model Calibration, Data Assimilation, and Uncertainty Analysis | 128 | 40 | 88 | 31.3% |
| 7gh3p3z1 | The contribution of global aviation to anthropogenic climate forcing for 2000 to 2018 | 128 | 98 | 30 | 76.6% |
| 1r43h5sj | Spatial separation of litter decomposition and mycorrhizal nitrogen uptake in a boreal forest | 124 | 13 | 111 | 10.5% |
| 2gs9z7s4 | Oceanic Methane Biogeochemistry | 124 | 52 | 72 | 41.9% |
| 0wz826xt | Widespread, rapid grounding line retreat of Pine Island, Thwaites, Smith, and Kohler glaciers, West Antarctica, from 1992 to 2011 | 123 | 89 | 34 | 72.4% |
| 8v75p98c | A toolbox for the optimal design of run-of-river hydropower plants | 122 | 88 | 34 | 72.1% |
| 4bv3m5n3 | Turbulence and Coral Reefs. | 121 | 35 | 86 | 28.9% |
| 3w84t57s | The ozone layer: the road not taken | 120 | 37 | 83 | 30.8% |
| 0jb5j8sv | Why is marsh productivity so high? New insights from eddy covariance and biomass measurements in a Typha marsh | 115 | 44 | 71 | 38.3% |
| 48x0t0b1 | Modeling and simulating of reservoir operation using the artificial neural network, support vector regression, deep learning algorithm | 113 | 79 | 34 | 69.9% |
| 0jm230gv | Ice-Shelf Melting Around Antarctica | 111 | 35 | 76 | 31.5% |
| 9jh429w9 | Trace gas trends and their potential role in climate change | 108 | 82 | 26 | 75.9% |
| 57t1t77c | CO2 balance of boreal, temperate, and tropical forests derived from a global database | 107 | 29 | 78 | 27.1% |
| 1h97d800 | Hybrid Fuel Cell Systems | 106 | 7 | 99 | 6.6% |
| 0cs8c3f7 | Forecasting Global Fire Emissions on Subseasonal to Seasonal (S2S) Time Scales | 104 | 35 | 69 | 33.7% |
| 9dq137rj | Global air quality and climate | 104 | 32 | 72 | 30.8% |
| 86c8v3bf | Relationships Between NDVI, Canopy Structure, and Photosynthesis in Three Californian Vegetation Types | 103 | 80 | 23 | 77.7% |
| 5f88k5qp | Postfire response of North American boreal forest net primary productivity analyzed with satellite observations | 101 | 32 | 69 | 31.7% |
| 5qs7t7cj | Multivariate Standardized Drought Index: A parametric multi-index model | 101 | 64 | 37 | 63.4% |
Disclaimer: due to the evolving nature of the web traffic we receive and the methods we use to collate it, the data presented here should be considered approximate and subject to revision.