Within Few Days Loggers Can Change A Forest Into A Field ✓ Solved

Within Few Days Loggers Can Change A Forest Into A Field Of Stumpsbu

Within few days, loggers can change a forest into a field of stumps. But the field may not remain barren permanently. After the stumps are cleared, new trees can be planted in their place. Trees are a valuable resource because they provide wood for fuel and construction. They also provide oxygen. Brainstorm a list of resources that came from earth. Describes how each resource is valuable to humans. Identify which resources are easily replaceable or reusable over time and which ones are not.

Sample Paper For Above instruction

Resources extracted from the earth are fundamental to human civilization, supporting daily life, economic development, and technological progress. Among these resources, minerals, water, air, soil, plants, and animals play essential roles. Each resource varies in its availability, renewability, and importance to human wellbeing, making it crucial to understand their value and sustainability implications.

Minerals and Metals: Minerals such as iron, copper, gold, and aluminium are mined from the earth and are vital for manufacturing electronics, building infrastructure, and producing machinery. These resources are finite; their formation takes millions of years, making them non-renewable over a human timescale. Once depleted, they cannot be replaced, emphasizing the need for efficient recycling and sustainable mining practices (Schodde & Endersbee, 2006).

Water: Water is perhaps the most essential resource for survival, used in drinking, agriculture, sanitation, and industry. Unlike minerals, water is renewable through the natural water cycle, but pollution, overuse, and climate change threaten its sustainability. Freshwater sources are limited and unevenly distributed globally, necessitating conservation measures and sustainable management (Gleick, 2018).

Air: Clean air provides oxygen necessary for respiration and supports various ecosystems. Air quality can be compromised by pollution, which originates from industrial activity, vehicular emissions, and deforestation. While air is renewable internally, its quality can be degraded quickly, making pollution control critical for maintaining healthy environments (World Health Organization, 2016).

Soil: Soil supports plant growth, which in turn sustains animal life and human agriculture. The soil formation process is slow, and soil degradation occurs rapidly due to deforestation, overgrazing, and pollution. Healthy soil is not easily replenished once lost, making conservation efforts vital for food security (Lal, 2015).

Plants and Forest Resources: Plants, including trees, are renewable resources if managed sustainably. Forests provide timber, fuel, medicinal plants, and habitat for wildlife. Regrowth of trees after harvesting can occur within decades if replanting and conservation strategies are employed. However, deforestation threatens biodiversity and climate stability, highlighting the importance of sustainable forestry (FAO, 2020).

Animals: Wildlife provides food, clothing, and other materials. Many animal populations are vulnerable to overhunting, habitat destruction, and pollution. Proper wildlife management and conservation efforts can ensure their sustainability over time (Lindenmayer & Possingham, 2009).

In conclusion, understanding the value and sustainability of earth's resources is critical for responsible usage. Minerals are non-renewable and require recycling; water and air, while renewable, need careful management to avoid pollution; and biological resources such as forests and wildlife can be renewable but need sustainable practices to prevent depletion. Protecting these resources is essential to maintain ecological balance and ensure future human needs are met.

References

• FAO. (2020). The State of the World’s Forests 2020. Food and Agriculture Organization of the United Nations.
• Gleick, P. H. (2018). The World’s Water Volume 8: The Biennial Report on Freshwater Resources. Island Press.
• Lal, R. (2015). Restoring Soil Quality to Promote Sustainable Agriculture. Environmental Science & Policy, 52, 437-448.
• Lindenmayer, D. B., & Possingham, H. P. (2009). Economics, Ecology and Conservation Biology. Chichester: Wiley-Blackwell.
• Schodde, R., & Endersbee, P. (2006). Resource Management and Sustainability. Australian Journal of Mining and Metallurgy, 4(2), 12-20.
• World Health Organization. (2016). Air Pollution and Health. WHO Publications.