🦆 the muse is duct-taping

docs/_tex/references.bib

@@ -991,6 +991,21 @@ @article{eklofSecondaryExtinctionsFood2013
   file = {/Users/tanyastrydom/Zotero/storage/WPTP7LXF/Eklöf et al. - 2013 - Secondary extinctions in food webs a Bayesian net.pdf}
 }
 
+@book{eltonAnimalEcology2001,
+  title = {Animal {{Ecology}}},
+  author = {Elton, Charles S.},
+  editor = {Leibold, Matthew A. and Wootton, Timothy J.},
+  year = {2001},
+  month = jun,
+  publisher = {University of Chicago Press},
+  address = {Chicago, IL},
+  urldate = {2024-10-04},
+  abstract = {Charles Elton was one of the founders of ecology, and his Animal Ecology was one of the seminal works that defined the field. In this book Elton introduced and drew together many principles still central to ecology today, including succession, niche, food webs, and the links between communities and ecosystems, each of which he illustrated with well-chosen examples. Many of Elton's ideas have proven remarkably prescient---for instance, his emphasis on the role climatic changes play in population fluctuations anticipated recent research in this area stimulated by concerns about global warming.For Chicago's reprint of this classic work, ecologists Mathew A. Leibold and J. Timothy Wootton have provided new introductions to each chapter, placing Elton's ideas in historical and scientific context. They trace modern developments in each of the key themes Elton introduced, and provide references to the most current literature. The result will be an important work for ecologists interested in the roots of their discipline, for educated readers looking for a good overview of the field, and for historians of science.},
+  isbn = {978-0-226-20639-4},
+  langid = {english},
+  file = {/Users/tanyastrydom/Zotero/storage/23HVN2K3/bo25281897.html}
+}
+
 @article{erdosRandomGraphs1959,
   title = {On {{Random Graphs I}}},
   author = {Erd{\H o}s, Paul and R{\'e}nyi, Alfr{\'e}d},
@@ -1256,6 +1271,13 @@ @article{grimmBabelEcologicalStability1997
   file = {/Users/tanyastrydom/Zotero/storage/T76EFL7P/Grimm and Wissel - 1997 - Babel, or the ecological stability discussions an.pdf}
 }
 
+@misc{GrinnellianEltonianNiches,
+  title = {Grinnellian and {{Eltonian}} Niches and Geographic Distributions of Species - {{Sober{\'o}n}} - 2007 - {{Ecology Letters}} - {{Wiley Online Library}}},
+  urldate = {2024-10-04},
+  howpublished = {https://onlinelibrary.wiley.com/doi/10.1111/j.1461-0248.2007.01107.x},
+  file = {/Users/tanyastrydom/Zotero/storage/J7889LIW/j.1461-0248.2007.01107.html}
+}
+
 @article{guimaraesStructureEcologicalNetworks2020,
   title = {The {{Structure}} of {{Ecological Networks Across Levels}} of {{Organization}}},
   author = {Guimar{\~a}es, Paulo R.},
@@ -2214,6 +2236,19 @@ @article{proulxNetworkThinkingEcology2005
   file = {/Users/tanyastrydom/Zotero/storage/2B58K65Z/Proulx et al. - 2005 - Network thinking in ecology and evolution.pdf;/Users/tanyastrydom/Zotero/storage/YFGGXEVM/S0169-5347(05)00088-1.html}
 }
 
+@article{pykeOptimalForagingTheory1984,
+  title = {Optimal {{Foraging Theory}}: {{A Critical Review}}},
+  shorttitle = {Optimal {{Foraging Theory}}},
+  author = {Pyke, Graham},
+  year = {1984},
+  month = nov,
+  journal = {Annual Review of Ecology, Evolution and Systematic},
+  volume = {15},
+  pages = {523--575},
+  doi = {10.1146/annurev.ecolsys.15.1.523},
+  abstract = {Assumptions behind optimal foraging theory are: 1) an individual's contribution to the next generation (its fitness) depends on behaviour during foraging; 2) there should be a heritable component of foraging behaviour (the actual innate foraging responses or the rules by which such responses are learned), and the proportion of individuals in a population foraging in ways that enhance fitness will tend to increase over time; 3) the relationship between foraging behaviour and fitness is known; 4) evolution of foraging behaviour is not prevented by genetic contraints; 5) such evolution is subject to 'functional' constraints (eg related to the animal's morphology); and 6) foraging behaviour evolves more rapidly than the rate at which relevant environmental conditions change. The review considers recent theoretical and empirical developments, dealing with behaviour of animals while they are foraging (but ignoring the timing of and the amount of time allocated to such behaviour). Ideas considered include risk aversion and risk proneness; optimal diet; optimal patch choice; optimal patch departure rules; optimal movements; and optimal central place foraging. Means of evaluating optimal foraging theory are discussed. -P.J.Jarvis}
+}
+
 @article{robertsTestingCascadeModel2003,
   title = {Testing the {{Cascade Model}} for {{Food Webs}}},
   author = {Roberts, John M.},
@@ -2373,6 +2408,23 @@ @misc{shawFrameworkReconstructingAncient2024
   file = {/Users/tanyastrydom/Zotero/storage/AKAQ984E/Shaw et al. - 2024 - A framework for reconstructing ancient food webs u.pdf}
 }
 
+@article{soberonGrinnellianEltonianNiches2007,
+  title = {Grinnellian and {{Eltonian}} Niches and Geographic Distributions of Species},
+  author = {Sober{\'o}n, Jorge},
+  year = {2007},
+  journal = {Ecology Letters},
+  volume = {10},
+  number = {12},
+  pages = {1115--1123},
+  issn = {1461-0248},
+  doi = {10.1111/j.1461-0248.2007.01107.x},
+  urldate = {2024-10-04},
+  abstract = {In the recent past, availability of large data sets of species presences has increased by orders of magnitude. This, together with developments in geographical information systems and statistical methods, has enabled scientists to calculate, for thousands of species, the environmental conditions of their distributional areas. The profiles thus obtained are obviously related to niche concepts in the Grinnell tradition, and separated from those in Elton's tradition. I argue that it is useful to define Grinnellian and Eltonian niches on the basis of the types of variables used to calculate them, the natural spatial scale at which they can be measured, and the dispersal of the individuals over the environment. I use set theory notation and analogies derived from population ecology theory to obtain formal definitions of areas of distribution and several types of niches. This brings clarity to several practical and fundamental questions in macroecology and biogeography.},
+  langid = {english},
+  keywords = {Bionomic,distributional areas,Elton,Grinnell,Niche,scenopoetic,spatial scaling},
+  file = {/Users/tanyastrydom/Zotero/storage/AD6Z8BV5/Soberón - 2007 - Grinnellian and Eltonian niches and geographic dis.pdf;/Users/tanyastrydom/Zotero/storage/S7XTGPG9/j.1461-0248.2007.01107.html}
+}
+
 @article{solowLumpingSpeciesFood1998,
   title = {On {{Lumping Species}} in {{Food Webs}}},
   author = {Solow, Andrew R. and Beet, Andrew R.},