Biodiversity Training
Biodiversity training is a professional capacity-building program that focuses on biodiversity conservation, sustainable use, and related policy practices. Its core purpose is to help participants grasp the core logic and implementation methods of conservation.
Training core objectives
Develop a systematic understanding of the ecological and economic value of biodiversity and its connection to human survival.
Master key knowledge and tools, including practical skills in species identification, ecological surveys, and conservation planning.
Clarify role responsibilities, implement conservation actions in industry-specific contexts, and promote compliance and sustainable development.
Enhance communication and collaboration skills to effectively communicate conservation concepts to the public, team, or partners.
Core Training Content Modules
1. Basic Cognitive Module
- The definition, hierarchy (genes, species, ecosystems), and global/regional status of biodiversity.
- The main drivers of biodiversity loss include habitat destruction, pollution, climate change, and invasive alien species.
- The core significance of protecting biodiversity includes ecological balance, resource supply, and climate regulation.
2. Policy and Regulations Module
- International conventions (such as the outcomes of the Convention on Biological Diversity (COP15) and the Convention on International Trade in Endangered Species of Wild Fauna and Flora (CITES)).
- Domestic regulations (such as the Biodiversity Conservation Law, the Wildlife Protection Law, and the Ecological Protection Red Line Management Measures).
- Industry compliance requirements (such as ecological protection approval processes in fields such as engineering construction, mining, agriculture, and forestry).
3. Practical Skills Module
Basic survey methods: species identification (morphological characteristics of plants and animals, use of common species atlases), transect/quadrat survey, data recording and analysis.
Conservation efforts are being implemented: habitat restoration technologies, monitoring and control of invasive alien species, and lessons learned from endangered species conservation cases.
Risk assessment tools: Biodiversity impact assessment (EIA) process and methodology in project development.
4. Industry Application Module
Enterprise scenarios: sustainable supply chain management, green production and biodiversity synergy, corporate social responsibility (CSR) project design.
Public welfare/scientific research scenarios: community-participatory conservation models, science popularization program design, and scientific research data sharing and application.
Government/Law Enforcement Scenarios: Ecological protection supervision methods, identification and handling of illegal activities, and cross-departmental collaboration mechanisms.
5. Case Studies and Practice Module
- Successful domestic and international cases (such as the Sanjiangyuan ecological protection, the construction of the Giant Panda National Park, and corporate ecological restoration projects).
- Review of failure cases (such as ecological disasters caused by invasive alien species, and habitat destruction caused by improper development).
- Group-based practical exercises (simulated ecological surveys, protection plan design, science popularization presentations, etc.).
Training Participants
Staff of relevant government departments (ecological environment, forestry and grassland, natural resources, agriculture and rural affairs, etc.).
Employees of companies (in industries that may impact the environment, such as energy, mining, construction, agriculture, and tourism).
Personnel from public welfare organizations and research institutions, as well as teachers and students in related majors at universities.
Community workers, environmental volunteers, and members of the public who are concerned about biodiversity conservation.
Common Training Formats
Theoretical instruction:
The course combines online and offline methods, inviting ecologists, policy experts, and industry practitioners to give lectures.
Hands-on practice:
Field investigation, ecological survey training, and on-site observation of conservation projects.
Interactive discussion:
Case studies, group debates, and solution design workshops.
Assessment and Certification:
The training program includes a theoretical exam and a practical assessment; some training programs may award relevant completion certificates.
Training Duration
Short-term Training:
The course lasts 1-3 days, focusing on basic knowledge and core policies, making it suitable for rapid dissemination.
Mid-term advancement:
The course lasts 5-7 days, covering both theory and practical training, and is suitable for those who need to master basic skills.
Long-term customization:
1-3 months (in stages), customized courses are designed for the specific needs of enterprises, governments, etc., with follow-up guidance.
SUSTECH
SUSTECH is an innovative technology service company with artificial intelligence, big data, and blockchain at its core. We specialize in ESG (Environmental, Social, and Governance) testing, certification, and compliance management, helping companies achieve their sustainable development goals. Through digital and intelligent means, we are redefining the testing and certification industry, making ESG compliance more transparent, efficient, and credible.
Core Advantage: Technology-enabled ESG Compliance
Intelligent ESG Data Acquisition and Analysis
- IoT Environmental Monitoring: Real-time collection of data on enterprise carbon emissions, wastewater discharge, energy consumption, etc., and automatic generation of ESG reports.
- AI carbon footprint calculation: Based on supply chain data, it accurately calculates the carbon footprint of a product throughout its entire lifecycle, in accordance with international standards such as ISO 14064 and GHG Protocol.
ESG Certification and Rating Optimization
- Automated compliance checks: AI compares data against global ESG standards (such as GRI, SASB, TCFD) to identify ESG risks for enterprises and provide improvement suggestions.
- ESG Rating Enhancement Solution: Combining industry best practices, we develop actionable ESG optimization strategies to help companies improve their ESG ratings from MSCI, S&P, and other ranking bodies.
Blockchain-based Evidence Storage and Transparent Traceability
- Tamper-proof ESG reports: All test data is stored on the blockchain to ensure traceability and auditability, enhancing the trust of investors and regulators.
- Supply chain ESG penetration management: Tracking supplier ESG performance to ensure compliance with the requirements of major international manufacturers.
