Climate policy costs of spatially unbalanced growth in electricity demand: the case of datacentres in Ireland by Desta Fitiwi (15418511)

“…</p> <p></p><p>Climate policy that focuses on renewable energy only is more expensive than a technology-neutral climate policy</p><p>The costs of a renewable-only focused climate policy increase non-linearly as demand increases</p><p></p> <p>Climate policy that focuses on renewable energy only is more expensive than a technology-neutral climate policy</p> <p>The costs of a renewable-only focused climate policy increase non-linearly as demand increases</p>…”

Sward structure and ingestive behavior of cows in tropical pastures managed under different forage allowances by E.R. Janusckiewicz (8142867)

“…In hand-plucked samples, leaf and stem percentages remained unchanged in the morning but leaf percentage increased while stems decreased in the afternoon. Permanence time decreased linearly with increasing FA. …”

<b>Regional asymmetries in dissolved organic carbon response to nitrogen addition rather than soil organic carbon and microbial biomass carbon</b> by Andong Cai (5237024)

“…The effect size of soil DOC decreased linearly with that of MBC to SOC ratio in humid regions, while it increased linearly in non-humid regions. …”

Data_Sheet_1_Plant Evolution History Overwhelms Current Environment Gradients in Affecting Leaf Chlorophyll Across the Tibetan Plateau.docx by Yicheng He (11532058)

“…Moreover, we revealed that leaf Chl non-linearly decreased with plant evolutionary divergence time. …”

Scaling of error and spike count with population size (weights held fixed). by Camille E. Rullán Buxó (9667654)

“…<p><b>(A)</b> Relative root-mean-square error (RMSE) decreases approximately linearly with the network size for all three models. …”

Altered balance control in thoracic adolescent idiopathic scoliosis during obstructed gait - Fig 2 by Kuan-Wen Wu (8415714)

“…With increasing obstacle height, a left arrow indicates a linearly decreasing trend (red bar: AIS-V; blue bar: AIS-A; black bar: Control).…”

Behavioral responses. by Fang Wang (105926)

“…<p>(a) Mean response times decreased linearly over preconditioning runs. …”

Critical safety factor of slope <i>F</i>_st. by Yongqing Zeng (8341515)

“…As the slope height increases from 5m to 45m, the safety factor of soil slope gradually decreases from 2.21 to 0.94; As the slope gradient increases from 20° to 60°, the safety factor of soil slope decreases approximately linearly from 1.80 to 0.95; As the cohesion of soil increases from 10kpa to 30kpa, the safety factor of soil slope increases approximately linearly from 1.04 to 1.60; As the internal friction angle of soil increases from 10° to 30°, the safety factor of soil slope increases approximately linearly from 1.00 to 1.81; As the unit weight of soil increases from 13kN/m³ to 21kN/m³, the safety factor of soil slope decreases approximately linearly from 1.50 to 1.21. …”

Classification of slope stability states. by Yongqing Zeng (8341515)

“…As the slope height increases from 5m to 45m, the safety factor of soil slope gradually decreases from 2.21 to 0.94; As the slope gradient increases from 20° to 60°, the safety factor of soil slope decreases approximately linearly from 1.80 to 0.95; As the cohesion of soil increases from 10kpa to 30kpa, the safety factor of soil slope increases approximately linearly from 1.04 to 1.60; As the internal friction angle of soil increases from 10° to 30°, the safety factor of soil slope increases approximately linearly from 1.00 to 1.81; As the unit weight of soil increases from 13kN/m³ to 21kN/m³, the safety factor of soil slope decreases approximately linearly from 1.50 to 1.21. …”

The main calculation parameters of slope soil. by Yongqing Zeng (8341515)

“…As the slope height increases from 5m to 45m, the safety factor of soil slope gradually decreases from 2.21 to 0.94; As the slope gradient increases from 20° to 60°, the safety factor of soil slope decreases approximately linearly from 1.80 to 0.95; As the cohesion of soil increases from 10kpa to 30kpa, the safety factor of soil slope increases approximately linearly from 1.04 to 1.60; As the internal friction angle of soil increases from 10° to 30°, the safety factor of soil slope increases approximately linearly from 1.00 to 1.81; As the unit weight of soil increases from 13kN/m³ to 21kN/m³, the safety factor of soil slope decreases approximately linearly from 1.50 to 1.21. …”

Influence of Nitrogen Fertility Practices on Hop Cone Quality by Anne E. Iskra (6823982)

“…However, when data were aggregated over years and analyzed using a mixed effect model, α-acids, β-acids, and total oil volume decreased linearly with increasing nitrogen rate; while cone color, expressed as the degree of greenness of cones, and nitrate content of cones increased linearly with nitrogen rate. …”

Effects of sowing depth and inoculation with Pseudomonas fluorescens on the initial growth of Urochloa brizantha (syn Brachiaria brizantha ) cv. Marandú by Victória de Lima MARTINS (12830791)

“…The germination and emergence percentages decreased linearly (P <0.05) as the SD increased. No plant emergence was observed at and at 12 cm depth. …”

Comparison between CM and ED using neural spikes artificially constructed to simulate electrode drifting. by Pan Ke Wang (7962101)

“…<p>(A) and (B) Temporal profiles of two artificial neural spike clusters with linearly decreased spike amplitudes. …”

Data_Sheet_1_2-Hydroxy-4-(Methylthio) Butanoic Acid Isopropyl Ester Supplementation Altered Ruminal and Cecal Bacterial Composition and Improved Growth Performance of Finishing Bee... by Xiaoli Qin (30441)

“…The concentrations of ammonia–nitrogen (NH₃-N), propionate, isobutyrate, butyrate, isovalerate, valerate, and total volatile fatty acid (VFA) were linearly decreased in the cecum (P < 0.05). The results of Phylogenetic Investigation of Communities by Reconstruction of Unobserved States (PICRUSt) showed that the abundance of most pathways with a significant difference was higher in the rumen and lower in the cecum in the H₃₀ group compared to the H₀ group, and those pathways were mainly related to the metabolism of amino acids, carbohydrates, and lipids. …”

Soil properties and cowpea yield after six years of consecutive amendment of composted tannery sludge by Ademir Sergio Ferreira de Araújo (10442058)

“…The soil bulk density decreased linearly while the aggregate stability index increased after compost amendment. …”

Image10_Temperature dependence of dielectric properties of blood at 10 Hz–100 MHz.TIF by Weice Wang (14011341)

“…The temperature coefficient of the imaginary part was positive and bimodal from 6.31 kHz to 100 MHz, with peaks of 5.22%/°C and 4.14%/°C at 126 kHz and 39.8 MHz, respectively. Finally, a third-order function model was developed to describe the dielectric spectra at these temperatures, in which the resistivity parameter in each dispersion zone decreased linearly with temperature and each characteristic frequency increased linearly with temperature. …”

Image2_Temperature dependence of dielectric properties of blood at 10 Hz–100 MHz.JPEG by Weice Wang (14011341)

“…The temperature coefficient of the imaginary part was positive and bimodal from 6.31 kHz to 100 MHz, with peaks of 5.22%/°C and 4.14%/°C at 126 kHz and 39.8 MHz, respectively. Finally, a third-order function model was developed to describe the dielectric spectra at these temperatures, in which the resistivity parameter in each dispersion zone decreased linearly with temperature and each characteristic frequency increased linearly with temperature. …”

Image14_Temperature dependence of dielectric properties of blood at 10 Hz–100 MHz.TIF by Weice Wang (14011341)

“…The temperature coefficient of the imaginary part was positive and bimodal from 6.31 kHz to 100 MHz, with peaks of 5.22%/°C and 4.14%/°C at 126 kHz and 39.8 MHz, respectively. Finally, a third-order function model was developed to describe the dielectric spectra at these temperatures, in which the resistivity parameter in each dispersion zone decreased linearly with temperature and each characteristic frequency increased linearly with temperature. …”

Image11_Temperature dependence of dielectric properties of blood at 10 Hz–100 MHz.TIF by Weice Wang (14011341)

“…The temperature coefficient of the imaginary part was positive and bimodal from 6.31 kHz to 100 MHz, with peaks of 5.22%/°C and 4.14%/°C at 126 kHz and 39.8 MHz, respectively. Finally, a third-order function model was developed to describe the dielectric spectra at these temperatures, in which the resistivity parameter in each dispersion zone decreased linearly with temperature and each characteristic frequency increased linearly with temperature. …”

Image3_Temperature dependence of dielectric properties of blood at 10 Hz–100 MHz.JPEG by Weice Wang (14011341)

“…The temperature coefficient of the imaginary part was positive and bimodal from 6.31 kHz to 100 MHz, with peaks of 5.22%/°C and 4.14%/°C at 126 kHz and 39.8 MHz, respectively. Finally, a third-order function model was developed to describe the dielectric spectra at these temperatures, in which the resistivity parameter in each dispersion zone decreased linearly with temperature and each characteristic frequency increased linearly with temperature. …”