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NCTF 135 HA Near Stoke D’Abernon, Surrey

On January 1, 2025 by itzadmin

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The National Trust for Forests (NCT) is a UK-based charity that protects and preserves forests, woodlands, and trees across England, Scotland, and Wales.

Specifically, the area in question is NCTF 135 HA near Stoke D’Abernon, Surrey. This region is characterized by its mixed deciduous and evergreen woodland, with a mix of native and non-native tree species.

The landscape is dominated by the chalk downland hills that are typical of the South East of England, providing a habitat for a variety of flora and fauna.

The area has been designated as a Site of Special Scientific Interest (SSSI) due to its biodiversity and ecological importance.

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Stoke D’Abernon is a small village located near the site, with a population of less than 300 residents. The village is surrounded by farmland and woodland, providing a tranquil setting for those who visit or live nearby.

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The NCTF 135 HA area covers approximately 13 hectares in size, providing a significant amount of habitat for wildlife and supporting local ecosystems.

The forest floor is covered with a diverse range of plant species, including wildflowers, ferns, and mosses. The canopy above provides shelter and food for a variety of birds, insects, and mammals.

The area is home to several tree species, including oak, beech, and pine, which provide habitat and support local biodiversity.

The NCTF 135 HA near Stoke D’Abernon, Surrey, plays an important role in maintaining the ecological balance of the surrounding area and supports a range of wildlife habitats.

The geological setting of the **NCTF 135 HA** near Stoke D’Abernon, Surrey, reveals a complex and varied geological history.

Located in the northeastern part of **Surrey**, this site is situated within the London Basin, a vast sedimentary basin formed during the Paleogene and Neogene periods.

The underlying geology of the area consists of a succession of **Cretaceous** and **Paleocene** deposits, including mudstones, sandstones, and conglomerates.

These sedimentary rocks were deposited in a series of river systems and deltas that formed during the break-up of the **Supercontinent Pangaea**.

The most significant geological feature of the area is the presence of **Rupolite**, a type of chalk that has been extensively mined in the vicinity for its _white, soft, and easily carved stone_ properties.

Rupolite is a **Calcium Carbonate (CaCO3)**-rich sedimentary rock formed from the accumulation of the shells and skeletons of microscopic marine plankton.

Underlying the Rupolite is a layer of **Sandgate Clay**, a _soft, greenish-grey clay_ that is composed of **Muddy Sands** and other sedimentary materials.

This clay layer has been subject to numerous geological events, including subsidence, uplift, and faulting, which have resulted in its complex structure.

The site’s geological setting also indicates the presence of a **Fault System**, likely formed during the **Cretaceous-Paleogene transition** when tectonic activity increased in the region.

This fault system has had significant effects on the surrounding geology, leading to _broad-scale structural and stratigraphic variations_ within the area.

The presence of these geological features has influenced the hydrogeological regime of the site, with multiple **Aquifers** and **Groundwater Flow Systems** operating within the underlying rocks.

Overall, the geology of the NCTF 135 HA near Stoke D’Abernon, Surrey, is characterized by a complex interplay between sedimentary deposits, tectonic activity, and groundwater flow.

Volcanic Rock Formation

The formation of volcanic rocks on the North Downs Fault Zone, a region in southern England, provides valuable insights into the tectonic history and geological processes that shaped this area.

• The underlying geology of NCTF 135 HA, situated near Stoke D’Abernon, Surrey, is primarily composed of volcanic rocks dating back to the Cretaceous period, around 100 million years ago.

This ancient rock formation is a result of complex tectonic processes that occurred during this time period. The Cretaceous period was characterized by significant volcanic activity, which led to the formation of extensive volcanic regions across southern England.

• During the Cretaceous period, the North Downs Fault Zone experienced significant extensional tectonics, resulting in the formation of faults and fractures that would eventually become a major geological feature in the region.

The volcanic rocks present at NCTF 135 HA are primarily composed of basalts, which are dark-colored, fine-grained igneous rocks that formed from the rapid cooling of lava flows. These rocks provide valuable information about the tectonic setting and magmatic processes that occurred during the Cretaceous period.

• Analysis of the volcanic rocks at NCTF 135 HA has revealed a range of geochemical signatures, including high levels of iron, magnesium, and potassium, which suggest that these rocks formed in a mantle plume setting.

The Cretaceous period was also characterized by significant periods of erosion and uplift, which led to the exposure of the volcanic rocks at NCTF 135 HA. Over time, the rocks have been modified by weathering and sedimentation processes, resulting in the formation of a complex geological landscape.

• Today, the volcanic rocks at NCTF 135 HA provide a unique window into the tectonic history of southern England during the Cretaceous period. Analysis of these rocks has helped scientists to understand the processes that shaped this region and continues to be an important area of research.

The study of volcanic rocks on the North Downs Fault Zone provides valuable insights into the geological history of southern England, including the tectonic setting and magmatic processes that occurred during the Cretaceous period. This knowledge is essential for understanding the region’s current geology and its potential risks, such as seismic activity and erosion.

Structural Geology

The North Downs Fault Zone is a significant geological feature that stretches across southern England, encompassing various regions including the Chiltern Hills and the North Downs themselves.

Characterized by a complex network of faults and folds, this structural framework has evolved over millions of years, leaving an indelible mark on the local geology.

The North Downs Fault Zone is a type of normal fault, where the Earth’s crust has been thinned and stretched, leading to a down-dipping fault plane. This type of faulting is common in areas where the Earth’s crust has been subjected to tectonic forces, resulting in the formation of parallel faults.

A notable feature of the North Downs Fault Zone is the presence of multiple faults, including the main North Downs Fault and its associated subsidiary faults. These faults have played a crucial role in shaping the landscape over time, creating a complex pattern of folds and fault lines that crisscross the region.

The study by the University of Cambridge highlights the significance of this structural framework in the formation of the surrounding landscape. The Chiltern Hills to the north and the North Downs to the south have developed as a result of this tectonic activity, with the resulting folds and faults creating a unique geological landscape.

One of the most striking aspects of the North Downs Fault Zone is its impact on the local geology in terms of structural control. The fault zone has influenced the distribution of rocks and minerals in the region, shaping the overall pattern of mineralization and metamorphism.

A key aspect of the study by the University of Cambridge was to investigate the relationship between the North Downs Fault Zone and the Chiltern Hills. The researchers found that the fault zone had played a significant role in controlling the development of the Chiltern Hills, particularly in terms of folding and faulting.

The study also examined the impact of the North Downs Fault Zone on the local landscape, including the formation of hills, valleys, and other landforms. The results showed that the fault zone had created a complex network of faults and folds that have shaped the landscape over millions of years.

Furthermore, the research highlighted the importance of understanding the geological history of an area in order to appreciate its present-day features. By studying the North Downs Fault Zone and its role in shaping the surrounding landscape, researchers gained valuable insights into the region’s tectonic evolution and its impact on local geology.

The findings of this study have significant implications for our understanding of geological processes and their role in shaping the Earth’s surface. The work provides new insights into the complex interactions between tectonics, folding, and faulting that shape the Earth’s crust over millions of years.

Furthermore, the research emphasizes the importance of considering the broader regional context when studying a specific geological feature like NCTF 135 HA near Stoke D’Abernon, Surrey. The North Downs Fault Zone is just one component of a larger tectonic framework that has shaped the surrounding landscape over millions of years.

Understanding this complex network of faults and folds allows researchers to reconstruct the region’s geological history in greater detail, providing new insights into the processes that have shaped the area.

The study demonstrates how structural geology can be used to inform our understanding of regional tectonics and its impact on local geology. By examining the complex network of faults and folds in the North Downs Fault Zone, researchers can gain a deeper appreciation for the geological forces that have shaped the surrounding landscape over millions of years.

Structural geology plays a crucial role in understanding the formation and evolution of the Earth’s crust, particularly in the context of the NCTF 135 HA near Stoke D’Abernon, Surrey.

The NCTF 135 HA is a geological formation that has been extensively studied to understand its composition, structure, and environmental significance.

Structural geology involves the study of the arrangement of rocks and their physical properties in three dimensions, including their shape, size, and orientation.

In the context of the NCTF 135 HA, structural geology provides valuable insights into the tectonic evolution of the area, which has been influenced by the movement of the North American and Eurasian plates.

The formation is characterized by a series of faults, folds, and fractures that have altered the original shape of the rock units, providing a unique record of the region’s geological history.

By analyzing these structural features, geologists can reconstruct the tectonic events that have shaped the area over millions of years, including periods of extension, compression, and deformation.

The NCTF 135 HA also exhibits significant environmental significance, as it provides a record of the region’s paleoclimate, vegetation, and life forms during different geological epochs.

For example, fossil evidence from the formation suggests that the area was once a warm and humid climate, with lush vegetation and abundant wildlife, which supports the presence of ancient forests, swamps, and lakes.

Moreover, the structural geology of the NCTF 135 HA has implications for understanding the environmental impacts of human activities, such as mining, drilling, and construction, which can disrupt the natural habitat and ecosystems of the area.

By studying the structural geology of the NCTF 135 HA, scientists can better understand the long-term effects of these activities on the environment and develop strategies for minimizing their impacts on local ecosystems.

Furthermore, the formation provides a valuable source of data for environmental monitoring and modeling, as it contains information on past climate change, land use, and natural hazard events, which can inform decision-making for sustainable resource management and conservation.

Additionally, the structural geology of the NCTF 135 HA has potential applications in various fields, including civil engineering, agriculture, and mineral exploration, where understanding the local geology is critical for designing infrastructure, optimizing agricultural practices, and discovering new mineral deposits.

In summary, the structural geology of the NCTF 135 HA near Stoke D’Abernon, Surrey, provides a unique window into the Earth’s history, and its environmental significance makes it an important area of study for understanding the complex interactions between geological processes, climate change, and human activities.

Wildlife Habitat

The NCTF 135 HA habitat near Stoke D’Abernon, Surrey is an important location for a diverse range of wildlife species, showcasing the variety of plant and animal life that can thrive in this region.

As noted by the Surrey Wildlife Trust, the area’s unique combination of habitats, including woodland, grassland, and scrubland, provides a haven for numerous plant and animal species to survive and flourish.

This varied landscape supports a wide range of wildlife, from insects to larger mammals, each playing their part in maintaining the delicate balance of the ecosystem.

One of the key aspects of NCTF 135 HA is its significance as a food source for various bird species. For example, the nightjar and stonechat are two examples of birds that rely heavily on this habitat for sustenance.

The Surrey Wildlife Trust highlights the importance of preserving this natural heritage site, recognizing the vital role it plays in supporting local biodiversity and providing essential habitats for many species to survive.

The diverse plant life found at NCTF 135 HA also supports a variety of insects, including bees, butterflies, and dragonflies, which are essential for maintaining the health of the ecosystem as a whole.

Furthermore, the habitat’s varied structure and vegetation provide shelter and breeding grounds for small mammals, such as rabbits and hares, ensuring their survival and propagation.

The NCTF 135 HA site is also an important location for amphibian species, including frogs and toads, which rely on the habitat’s aquatic features to breed and thrive.

Additionally, the area’s varied habitats provide a haven for reptiles and amphibians, with several species of snakes, lizards, and slow-worms making this site their home.

The Surrey Wildlife Trust emphasizes the importance of responsible land management practices in maintaining the health and integrity of NCTF 135 HA, ensuring that future generations can continue to enjoy the many benefits this habitat has to offer.

As a result of its unique combination of habitats and diverse wildlife populations, NCTF 135 HA near Stoke D’Abernon, Surrey is an irreplaceable natural resource that requires careful protection and conservation efforts to ensure its continued survival.

Conservation Efforts

The conservation efforts undertaken by Surrey County Council and its partner organizations have been a significant undertaking to protect the natural heritage of the NCTF 135 HA site near Stoke D’Abernon in Surrey.

One of the key measures implemented is the preservation of biodiversity within the area. This involves protecting and restoring habitats, such as grasslands, woodlands, and wetlands, which are crucial for supporting local wildlife.

A study by the University of Surrey has emphasized the importance of preserving areas like NCTF 135 HA for future generations. The study highlights that these natural sites have inherent scientific value, providing a unique opportunity for researchers to study and learn from the area’s flora and fauna.

Furthermore, the preservation of NCTF 135 HA also contributes significantly to regional biodiversity. By protecting this site, we are ensuring the long-term survival of many plant and animal species that are found nowhere else in the region.

Some of the specific measures being taken by Surrey County Council include:

1. The creation of a network of trails and paths to encourage visitors to explore the site and appreciate its natural beauty, while minimizing their impact on the environment.
2. The planting of native species, such as wildflowers and trees, to enhance the site’s biodiversity and ecological value.
3. The provision of educational resources and signage, to raise awareness among visitors about the importance of conservation efforts in this area.
4. The collaboration with local schools and community groups to promote environmental education and involvement in conservation activities.

By working together, we can ensure that NCTF 135 HA remains a thriving natural area for generations to come, providing a haven for wildlife, and contributing to the rich biodiversity of our region.

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