What Rural Landscaping Has Done To Help Reduce Carbon Emissions

Rural landscaping is a process of developing a land through systematic planning and implementation. It involves a three-way process of farm planning, ecological consultancy and landscaping services. Land developers use rural landscaping to reinvigorate unused or underdeveloped property. They use it not just to improve its look but also its usability. 

Restoration projects, including permaculture, can be a part of a much larger land project. Rural landscaping usually deals with enhancing land potential of such lands and restoring its natural habitat while keeping it profitable. 

Like all successful landscaping projects, rural landscaping follows a design. A suitable design that fits the structure and need of the land. But landscaping projects deal with not just restoring the natural ecosystem of the land. It also enhances it for future use. 

Why is Rural Landscaping Different from other Landscaping Projects?

Rural landscaping has some similarities with other landscaping projects. But there are factors dictating rural landscaping that differs from other landscaping schemes. It enhances with minimal alterations, particularly with the land’s structure and composition. Quite a different approach from other landscaping projects. 

Unlike other land developments, rural landscaping has its own unique system. It allows you to rehabilitate that damaged system of your land back to its original form. 

The use of native plants as part of the process adds another layer. It tries to revive the natural ecosystem of your property with the use of these native plants. These plants are chosen for their ability to survive for long periods. They also increase the value of your property through their commercial value like in food production or medicinal properties. 

Why Rural Landscaping is an Effective Way of Combating Carbon Emission

Carbon emissions come from livestock waste, transportation exhaust and smoke stack from commercial units. Rural landscaping done well can help stop this and maintain the viability of the property for years to come. 

With proper planning and implementation, rural landscaping minimizes the problem of these carbon emissions. Rural landscaping is an effective way of combating carbon emission through: 

  • Organic farming – Rural landscaping encourages organic farming, which reduces the dependence on pesticides and works with the environment to improve productivity. This can help cut the greenhouse gas emissions within your property.
  • Planting of native trees – Native trees absorb high amounts of carbon dioxide. Their presence helps reduce carbon emissions within your property.
  •  Less use of pesticides – Native plants can take care of itself since most of them are resistant to endemic pests and are self-sustaining. 

How Do You Incorporate Rural Landscaping in Mitigating Carbon Emission? 

To fully realize the potential of rural landscaping in reducing carbon emissions, hiring an expert would be the best course of action. An expert would have the knowledge and skills necessary to create a design that works well for your immediate and future needs while taking into consideration the environmental impact of the design. 

At Rural Design, we have decades of experience in designing and implementing rural design projects that places environmental impacts as top priority. What makes us different from our competition is our designs are feasible and realistic, allowing you to make use of your property even as it helps the environment. 

Our holistic approach takes every factor into consideration, from government consent applications, stakeholder involvement, environmental impact, feasibility, and maintenance. We know that in order for rural landscaping to be a success, it has to work for the future as well as today. So we have several experts that pool together their expertise to give you comprehensive services, making sure that you have everything you need under one roof.

Best Native Plants To Use To Reduce Carbon Emissions In Your Farmland

Historically, the agricultural sector has done little to mitigate carbon emissions. This is true to some extent with more farms abandoning traditional methods and adapting more technology-based processes.

Demands in farm production increase every year. And most farmers are forced to keep up with it. In the process this also increases the amount of greenhouse gas emissions. But with climate change becoming a serious global issue, it’s becoming impossible to ignore the contribution of the industry to the problem, and the effects of carbon emissions on agriculture. If we want farms to continue to be viable in the future, they have to do their part in combating climate change.

One way of reducing the risk of carbon emission is with native plants. Native plants are very effective in reducing carbon emissions in addition to being commercially viable. They have certain characteristics that make them ideal for helping farms combat the effects of climate change.

  • They are adaptable – Native plants such as the Kanuka are resilient and can easily adapt to a rural environment.
  • They are self-sustaining – Native plants grow in varying forms and degrees. Most blossom with divaricating growth forms, helping them spread out faster and withstand extreme environmental changes better.
  • They help maintain biodiversity – Native plants can increase species activity within the area like native bird activity.
  • They are economically important – Many native plants have medicinal value while some can be used for food, cosmetics, and construction.

What are the Type of Native Plants to Use Along with its Benefits

  • Flax – Flax is one of the oldest native plants in the country. It’s a source of food for many animals and is prized for its medicinal value.
  • Kauri – Kauris are large native trees. Though considered endangered, but kauris are perfect when it comes to reducing carbon emission. Considered as one of New Zealand's mightiest trees, kauris provides shelter for endemic animals. 
  • Cabbage tree – If you have wetlands in your property, then this is the native plant for you. Cabbage trees have strong root system, which helps reduce erosion. It’s one of the native trees that continues to thrive despite environmental changes and threats. And like flax, cabbage trees have medicinal value.
  • Kōwhai – Though listed as endangered, Kōwhais are durable. With its small leaflets and juvenile branches, it is home to many animal species.

Where Can You Get Native Plants

Above are just some of the native plants that can be used to combat climate change. There are thousands of species that can be used, depending on the area. But the question is; where can you get these native plants? 

This is where Rural Design comes in. We have an extensive native plant nursery and can offer competitive pricing on a variety of native plants for your restoration project. Aside from that, we also do eco-sourcing of these native plants to ensure genetic variability and maximum adaptability.

We understand that choosing the right type of native plants vary.  So we will help you plan your restoration project conscious of your land's need. We even aid in the selection of your native plants, all the way to its maintenance.

Climate change is quite a dilemma and mitigation can come down to the choices that you make. The choice of using native plants for your property is the right decision. The only thing to do now is to implement it with a professional like Rural Design. And that is giving your property enough protection from the threats of climate change.  

Can Wetland Restoration Help Reduce Carbon Emissions

The main goal of wetland restoration is to bring it back the original ecosystem. Like all restoration projects, there are steps involved. Planning and implementation often includes data or information gathering. And when making a concept plan, the type of native plants used and how they're maintained are also considered. The design is also a major factor, which has to be functional and pleasing at the same time.

But nowadays that’s no longer enough. The idea of doing wetland restoration to address the problem of carbon emissions is no longer just an option but a need for any serious developer.  Aside from these processes, land developers also consider the impact a restoration project can have on the environment.  It’s not enough for a restoration project to have little or no impact, it has to make a positive impact and actively fight the effects of climate change.

Most wetlands do release carbon dioxide in the atmosphere. However, with careful restoration, wetlands can go a long way in reducing the production and presence of greenhouse gases.

How Does Wetland Restoration Differ From Other Restoration Schemes in Mitigating Carbon Emissions

Permaculture, reforestation and rural landscaping are more effective in reducing carbon emissions compared to wetland restoration.  The reason for this is that the three other methods have more planting and usually covers a much larger area.  More plants can absorb carbon emissions and a large forested area can absorb enough carbon which can be traded in the form for New Zealand Units under the Emissions Trading Scheme.

Wetlands naturally produce methane from the organic matter decomposition that takes place there. But planting native species can also help mitigate or even reduce emissions altogether. Wetland revegetation can also cover a wide area, from the waterline up to several meters away from the shore. And planting for wetland restoration would often involve a wide variety of species. Bushes and reeds like Manuka are planted to support aquatic species.  The trees serve as barriers to protect the wetland from stock while providing shade and shelter to the local fauna.

Restoration has other added benefits as well such as:

  •  Stabilization of Climate Conditions. Replanting helps protect the surrounding environment and helps reduce the impact of extreme weather.  The key is using native plants adapted to wetland condition to revitalize the local ecosystem.
  • Nutrients retention. The agri and aquaculture industries lose millions of dollars every year to soil erosion and eutrophication.  Proper wetland restoration helps control soil erosion and runoff; making farms productive and sustainable.
  • Improved water quality. Wetland restoration helps improve groundwater discharge and recharge. Groundwater discharge and recharge is the process in which groundwater moves above ground and vice versa. This helps filter the water, making it suitable for drinking and irrigation.

How Is Wetland Restoration a Viable Option for Combating Carbon Emissions?

Wetland restoration is a viable option for combating carbon emissions as this can be done on a much smaller scale compared to reforestation or rural landscaping. It also serves as a good starting point for larger ecological restoration projects as most would depend on the availability of natural water sources.

The impact of wetland restoration is also broader. When connected to river or estuary systems, restoration can help improve the health of these supporting systems by providing breeding grounds or feeding areas for fish and other aquatic animals. If the wetland is connected to a watershed, more vegetation, through restoration, can help ensure continued water supply and quality for the local community.

When planning a restoration project it’s important to look at how different wetland elements work together.  You also need to look out how the surrounding environment affect a wetland. This informationbecomes easier to create a workable restoration plan for a functional wetland that can reduce carbon emissions.

Since wetland restoration is a delicate process, seeking help from a restoration expert is essential. That’s where Rural Design comes in. Our experience and expertise has made us leaders in sustainable restoration. It’s not just creating visually appealing designs. It’s about creating designs that work for and with the environment.

With our experienced restoration team, our well stocked native plant nursery and relationships with government units, we can aid you in every step of the process. From planning and application to implementation and planting, we can help and guide you every step of the way.