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1. Connected interactions: enriching food web research by spatial and social interactions

   https://doi.org/10.1098/rstb.2023.0163  

   Valdovinos, Fernanda S; Bodini, Antonio; Jordán, Ferenc (September 2024, Philosophical Transactions of the Royal Society B: Biological Sciences)

   This theme issue features 18 papers exploring ecological interactions, encompassing metabolic, social, and spatial connections alongside traditional trophic networks. This integration enriches food web research, offering insights into ecological dynamics. By examining links across organisms, populations, and ecosystems, a hierarchical approach emerges, connecting horizontal effects within organizational levels vertically across biological organization levels. The inclusion of interactions involving humans is a key focus, highlighting the need for their integration into ecology given the complex interactions between human activities and ecological systems in the Anthropocene. The comprehensive exploration in this theme issue sheds light on the interconnectedness of ecological systems and the importance of considering diverse interactions in understanding ecosystem dynamics. This article is part of the theme issue ‘Connected interactions: enriching food web research by spatial and social interactions’. 

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2. Expanding theory, methodology and empirical systems at the spatial–social interface

   https://doi.org/10.1098/rstb.2022.0534  

   Albery, Gregory F; Webber, Quinn_M R; Farine, Damien; Picardi, Simona; Vander_Wal, Eric; Manlove, Kezia R (October 2024, Philosophical Transactions of the Royal Society B: Biological Sciences)

   All animals exhibit some combination of spatial and social behaviours. A diversity of interactions occurs between such behaviours, producing emergent phenomena atthe spatial–social interface. Untangling and interrogating these complex, intertwined processes can be vital for identifying the mechanisms, causes and consequences of behavioural variation in animal ecology. Nevertheless, the integrated study of the interactions between spatial and social phenotypes and environments (at the spatial–social interface) is in its relative infancy. In this theme issue, we present a collection of papers chosen to expand the spatial–social interface along several theoretical, methodological and empirical dimensions. They detail new perspectives, methods, study systems and more, as well as offering roadmaps for applied outputs and detailing exciting new directions for the field to move in the future. In this Introduction, we outline the contents of these papers, placing them in the context of what comes before, and we synthesize a number of takeaways and future directions for the spatial–social interface. This article is part of the theme issue ‘The spatial–social interface: a theoretical and empirical integration’. 

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3. Complex adaptive systems science in the era of global sustainability crisis

   https://doi.org/10.1016/j.geosus.2024.09.011  

   An, Li; Turner, BL; Liu, Jianguo; Grimm, Volker; Zhang, Qi; Wang, Zhangyang; Huang, Ruihong (November 2024, Geography and Sustainability)

   A significant number and range of challenges besetting sustainability can be traced to the actions and interactions of multiple autonomous agents (people mostly) and the entities they create (e.g., institutions, policies, social network) in the corresponding social-environmental systems (SES). To address these challenges, we need to understand decisions made and actions taken by agents, the outcomes of their actions, including the feedbacks on the corresponding agents and environment. The science of complex adaptive systems—CAS science—has a significant potential to handle such challenges. We address the advantages of CAS science for sustainability by identifying the key elements and challenges in sustainability science, the generic features of CAS, and the key advances and challenges in modeling CAS. Artificial intelligence and data science combined with agent-based modeling promise to improve understanding of agents’ behaviors, detect SES structures, and formulate SES mechanisms. 

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4. Long-Term Ecological Research and Evolving Frameworks of Disturbance Ecology

   https://doi.org/10.1093/biosci/biz162  

   Gaiser, Evelyn E; Bell, David M; Castorani, Max C; Childers, Daniel L; Groffman, Peter M; Jackson, C Rhett; Kominoski, John S; Peters, Debra P; Pickett, Steward T; Ripplinger, Julie; et al (January 2020, BioScience)

   Abstract Detecting and understanding disturbance is a challenge in ecology that has grown more critical with global environmental change and the emergence of research on social–ecological systems. We identify three areas of research need: developing a flexible framework that incorporates feedback loops between social and ecological systems, anticipating whether a disturbance will change vulnerability to other environmental drivers, and incorporating changes in system sensitivity to disturbance in the face of global changes in environmental drivers. In the present article, we review how discoveries from the US Long Term Ecological Research (LTER) Network have influenced theoretical paradigms in disturbance ecology, and we refine a framework for describing social–ecological disturbance that addresses these three challenges. By operationalizing this framework for seven LTER sites spanning distinct biomes, we show how disturbance can maintain or alter ecosystem state, drive spatial patterns at landscape scales, influence social–ecological interactions, and cause divergent outcomes depending on other environmental changes. 

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5. The influence of social and spatial processes on the epidemiology of environmentally transmitted pathogens in wildlife: implications for management

   https://doi.org/10.1098/rstb.2022.0532  

   Pandey, Aakash; Wojan, Chris; Feuka, Abigail; Craft, Meggan E; Manlove, Kezia; Pepin, Kim M (October 2024, Philosophical Transactions of the Royal Society B: Biological Sciences)

   Social and spatial structures of host populations play important roles in pathogen transmission. For environmentally transmitted pathogens, the host space use interacts with both the host social structure and the pathogen’s environmental persistence (which determines the time-lag across which two hosts can transmit). Together, these factors shape the epidemiological dynamics of environmentally transmitted pathogens. While the importance of both social and spatial structures and environmental pathogen persistence has long been recognized in epidemiology, they are often considered separately. A better understanding of how these factors interact to determine disease dynamics is required for developing robust surveillance and management strategies. Here, we use a simple agent-based model where we vary host mobility (spatial), host gregariousness (social) and pathogen decay (environmental persistence), each from low to high levels to uncover how they affect epidemiological dynamics. By comparing epidemic peak, time to epidemic peak and final epidemic size, we show that longer infectious periods, higher group mobility, larger group size and longer pathogen persistence lead to larger, faster growing outbreaks, and explore how these processes interact to determine epidemiological outcomes such as the epidemic peak and the final epidemic size. We identify general principles that can be used for planning surveillance and control for wildlife host–pathogen systems with environmental transmission across a range of spatial behaviour, social structure and pathogen decay rates. This article is part of the theme issue ‘The spatial–social interface: a theoretical and empirical integration’. 

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