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Related Concept Videos

What is Climate?01:16

What is Climate?

Climate refers to the prevailing weather conditions in a specific area over an extended period. As the saying goes, “Climate is what you expect. Weather is what you get.” Climate is influenced by geographic factors, such as latitude, terrain, and proximity to bodies of water.
Responses to Drought and Flooding02:41

Responses to Drought and Flooding

Water plays a significant role in the life cycle of plants. However, insufficient or excess of water can be detrimental and pose a serious threat to plants.
Adaptations that Reduce Water Loss01:57

Adaptations that Reduce Water Loss

Though evaporation from plant leaves drives transpiration, it also results in loss of water. Because water is critical for photosynthetic reactions and other cellular processes, evolutionary pressures on plants in different environments have driven the acquisition of adaptations that reduce water loss.
Global Climate Change01:50

Global Climate Change

Throughout its ~4.5 billion year history, the Earth has experienced periods of warming and cooling. However, the current drastic increase in global temperatures is well outside of the Earth’s cyclic norms, and evidence for human-caused global climate change is compelling. Paleoclimatology, the study of ancient climate conditions, provides ample evidence for human-caused global climate change by comparing recent conditions with those in the past.
Microbes and Climate Change01:27

Microbes and Climate Change

Microorganisms are pivotal agents in Earth's biogeochemical cycles, significantly influencing climate dynamics through their metabolic activities. These microbes modulate the levels of key greenhouse gases by both contributing to and helping mitigate climate change.Microbial Contributions to Greenhouse Gas EmissionsRising global temperatures accelerate microbial metabolism, which, in turn, speeds up the decomposition of organic matter. This process releases carbon dioxide (CO₂) through...
Applications of GIS: Disaster Management and Emergency Response01:29

Applications of GIS: Disaster Management and Emergency Response

Geographic Information System (GIS) technology is essential for risk identification, action prioritization, and resource optimization in critical situations like flooding and earthquakes. By integrating spatial and demographic data, GIS provides a comprehensive framework for emergency response.GIS integrates data layers, like rainfall intensity, topography, elevation profiles, and river levels, to model high-risk flood zones. These layers assess areas susceptible to flooding based on their...

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Related Experiment Video

Updated: May 23, 2026

High Throughput Image-Based Phenotyping for Determining Morphological and Physiological Responses to Single and Combined Stresses in Potato
06:28

High Throughput Image-Based Phenotyping for Determining Morphological and Physiological Responses to Single and Combined Stresses in Potato

Published on: June 7, 2024

Improving operational resilience against climate change.

James Lodge1, Anna Karas2

  • 1Linklaters LLP.

Journal of Business Continuity & Emergency Planning
|May 22, 2026
PubMed
Summary

Organizations must enhance operational resilience against climate change impacts. This paper offers a framework for businesses to assess risks, adapt strategies, and leverage technology for climate resilience and competitive advantage.

Related Experiment Videos

Last Updated: May 23, 2026

High Throughput Image-Based Phenotyping for Determining Morphological and Physiological Responses to Single and Combined Stresses in Potato
06:28

High Throughput Image-Based Phenotyping for Determining Morphological and Physiological Responses to Single and Combined Stresses in Potato

Published on: June 7, 2024

Area of Science:

  • Business and Management
  • Environmental Science
  • Risk Management

Background:

  • Escalating climate change effects, including extreme weather events, necessitate strengthened operational resilience in organizations.
  • Recent record-breaking temperatures and severe weather underscore the urgency for proactive climate adaptation strategies.

Purpose of the Study:

  • To present a comprehensive framework for organizations to anticipate, adapt to, and recover from climate-related disruptions.
  • To guide businesses in assessing multifaceted climate risks (physical, transition, liability) and developing adaptive strategies.
  • To explore how organizations can foster climate awareness, empower workforces, and integrate technology for enhanced resilience.

Main Methods:

  • Framework development for operational resilience against climate change.
  • Analysis of climate risk assessment, including physical, transition, and liability risks.
  • Exploration of organizational adaptation, workforce empowerment, stakeholder engagement, supply chain resilience, and technology integration (AI, blockchain, IoT).

Main Results:

  • Organizations can achieve reduced operational risk, cost savings, improved reputation, and enhanced competitiveness through resilience planning.
  • Case studies and data demonstrate tangible benefits of proactive resilience strategies.
  • Integration of advanced technologies like AI, blockchain, and IoT can significantly bolster climate adaptation efforts.

Conclusions:

  • Building a climate-aware culture, adaptive workforce skills, and flexible policies are crucial for organizational resilience.
  • Proactive resilience planning enables organizations to not only mitigate climate threats but also capitalize on opportunities for innovation and market differentiation.
  • The paper equips business leaders with actionable knowledge to build resilient organizations capable of thriving in a changing climate.