General aspects of network dynamics:

• A01: Evolution from small to large networks, their spectrum and related bifurcation scenarios;
• A02: Lasing networks in semiconductors;
• A03: Synchronization of complex oscillatory networks and ensembles;
• A04: Re-emergent cluster patterns in complex networks;

Stochastic dynamics and transport:

• B05: Random and stochastic partial differential equations and stochastic flows;
• B06: Multidimensional models of molecular motors at the transition from microscopic to mesoscopic dynamics;
• B07: Neurons and small clusters: The role of nonrenewal node dynamics;
• B08: Application of network theory to living neural cultures;
• B09: Models of anomalous transport: From Tokamaks to atmosphere;
• B10: Stochastic description of network systems with infinitely long memory;

Earth system and networks:

• C11: Creating complex networks to represent and characterize climate;
• C12: Analyzing tipping points and linking climate features of the Amazon region to the global climate;
• C13: Comparison of climate models and observed data;
• C14: Extreme event analysis;
• C15: Feedback between vegetation and climate;
• C16: Climate simulations with various states of the Amazon rainforest;
• C17: Reducing uncertainties in scenarios of deforestation and human-caused fires;
• C18: Conceptual climate models interpreted by non-Gaussian dynamical systems and their metastable behavior.