This dataset was used in Röpke et al. 2025 “Diet seasonality and resource partitioning by large catfishes in the Madeira River, Brazil. Published at Acta Amazonica to investigate two questions: (1) Do the diets of Brachyplatystoma species, as habitat specialists with large home ranges, exhibit seasonal variation?; and (2) How do habitat use and congeneric traits relate to the trophic segregation of large catfish species, enabling their co-occurrence in the Madeira River? The diet was described for eight species, of which diet seasonality was tested for four, while diet dissimilarity and overlap were estimated for seven regarding only the low-water season. The large pimelodids feed upon many fish families. Most Brachyplatystoma species did not exhibit seasonal shifts in prey consumption. Diet overlap was higher among congeneric and channel-restricted species, particularly Brachyplatystoma platynemum, B. rousseauxii, and B. vaillantii. Despite the diet overlap, some degree of trophic niche partitioning was observed, even among channel-restricted Brachyplatystoma species, mainly when comparing B. filamentosum to the other congeneric species.

This dataset was used in Röpke et al. 2025 “Diet seasonality and resource partitioning by large catfishes in the Madeira River, Brazil. Published at Acta Amazonica to investigate two questions: (1) Do the diets of Brachyplatystoma species, as habitat specialists with large home ranges, exhibit seasonal variation?; and (2) How do habitat use and congeneric traits relate to the trophic segregation of large catfish species, enabling their co-occurrence in the Madeira River? The diet was described for eight species, of which diet seasonality was tested for four, while diet dissimilarity and overlap were estimated for seven regarding only the low-water season. The large pimelodids feed upon many fish families. Most Brachyplatystoma species did not exhibit seasonal shifts in prey consumption. Diet overlap was higher among congeneric and channel-restricted species, particularly Brachyplatystoma platynemum, B. rousseauxii, and B. vaillantii. Despite the diet overlap, some degree of trophic niche partitioning was observed, even among channel-restricted Brachyplatystoma species, mainly when comparing B. filamentosum to the other congeneric species.

Dataset and codes support for the relevant study: Upper Mantle Density Variations Reshape Our View of Earth's Gravity and Crust

Dataset and codes support for the relevant study: Upper Mantle Density Variations Reshape Our View of Earth's Gravity and Crust

Conjunto de registros bibliográficos resultantes de busca na base de dados Dimensions em 26 de agosto de 2024. A estratégia de busca utilizada foi: "ciência aberta" OR "ciencia abierta" OR "open science" (idioma português, espanhol e inglês), no campo Title and abstract, filtrando pelas categorias de pesquisa 32 Biomedical and Clinical Sciences e 42 Health Sciences da Dimensions. Não foram utilizados filtros de ano nem de tipo de documento. Os registros foram utilizados para estudo bibliométrico e mapeamento de redes bibliométricas.

Conjunto de registros bibliográficos resultantes de busca na base de dados Dimensions em 26 de agosto de 2024. A estratégia de busca utilizada foi: "ciência aberta" OR "ciencia abierta" OR "open science" (idioma português, espanhol e inglês), no campo Title and abstract, filtrando pelas categorias de pesquisa 32 Biomedical and Clinical Sciences e 42 Health Sciences da Dimensions. Não foram utilizados filtros de ano nem de tipo de documento. Os registros foram utilizados para estudo bibliométrico e mapeamento de redes bibliométricas.

Datasets and used to create the figures of the manuscript "Single-site entanglement as a marker for quantum phase transitions at non-zero temperatures".The data files (.txt) and the corresponding figures (.pdf) are divided in folders.

Datasets and used to create the figures of the manuscript "Single-site entanglement as a marker for quantum phase transitions at non-zero temperatures".The data files (.txt) and the corresponding figures (.pdf) are divided in folders.

Related paperMacêdo, R.A., Bellinati, C.C, Fontana, W.B., Andrade, E.C., Pereira, R.G. Partons from stabilizer codes, Physical Review B, 2025Numerical dataThe numerical data used to make the plots of the paper is present on this data set. Each file correspond to the following data:gap.csv: Value of the energy gap along the different adiabatic paths defined by alpha (figure 4b)entanglement_entropy_nx.csv: Scaling of the entanglement entropy with the cylinder length (figure 5a)entanglement_entropy_ny_spin.csv: Scaling of the entanglement entropy with the cylinder circumference for the projected states (figure 5b)entanglement_entropy_ny_parton.csv: Scaling of the entanglement entropy with the cylinder circumference for the unprojected states (inset of figure 5b)topological_entanglement_entropy.csv: Value of the topological entanglement entropy of the projected states along different adibatic paths (figure 6a)phase_diagrams.csv: Critical values for s1 and s2  at different adiabatic paths (used for constructing the phase diagram of figure 6b)magnetization_nx.csv: Magnetization on the z direction along the adiabatic path for different system sizes (inset of figure 7a)susceptibility_nx.csv: Spin susceptibility on the z direction along the adiabatic path for different system sizes (figure 7a)plaquette.csv: Expected value of the plaquette operator along different adiabatic pathscorrelation_function.csv: Sz-Sz correlations as a functions (figure 8a)bond_dimension_convergence.csv: Maximum value that correlation length assumes along the adiabatic path as a function of the Matrix Product State bond dimension (figure 8b)correlation_length_nx.csv: Correlation length along the adiabatic path for different cylinder lengths (figure 8c)correlation_length_ny.csv: Correlation length along the adiabatic path for different cylinder circumferences (figure 8d)Code availability All codes used in our work are available upon reasonable request. Funding FAPESP, Grants Nos 2021/06629-4, 2022/15453-0, and 2023/06101

Related paperMacêdo, R.A., Bellinati, C.C, Fontana, W.B., Andrade, E.C., Pereira, R.G. Partons from stabilizer codes, Physical Review B, 2025Numerical dataThe numerical data used to make the plots of the paper is present on this data set. Each file correspond to the following data:gap.csv: Value of the energy gap along the different adiabatic paths defined by alpha (figure 4b)entanglement_entropy_nx.csv: Scaling of the entanglement entropy with the cylinder length (figure 5a)entanglement_entropy_ny_spin.csv: Scaling of the entanglement entropy with the cylinder circumference for the projected states (figure 5b)entanglement_entropy_ny_parton.csv: Scaling of the entanglement entropy with the cylinder circumference for the unprojected states (inset of figure 5b)topological_entanglement_entropy.csv: Value of the topological entanglement entropy of the projected states along different adibatic paths (figure 6a)phase_diagrams.csv: Critical values for s1 and s2  at different adiabatic paths (used for constructing the phase diagram of figure 6b)magnetization_nx.csv: Magnetization on the z direction along the adiabatic path for different system sizes (inset of figure 7a)susceptibility_nx.csv: Spin susceptibility on the z direction along the adiabatic path for different system sizes (figure 7a)plaquette.csv: Expected value of the plaquette operator along different adiabatic pathscorrelation_function.csv: Sz-Sz correlations as a functions (figure 8a)bond_dimension_convergence.csv: Maximum value that correlation length assumes along the adiabatic path as a function of the Matrix Product State bond dimension (figure 8b)correlation_length_nx.csv: Correlation length along the adiabatic path for different cylinder lengths (figure 8c)correlation_length_ny.csv: Correlation length along the adiabatic path for different cylinder circumferences (figure 8d)Code availability All codes used in our work are available upon reasonable request. Funding FAPESP, Grants Nos 2021/06629-4, 2022/15453-0, and 2023/06101