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This Is Epic

A curation of our design ideas and inspirations for houses in Goa, contemporary art and architecture.

 

 

 

 

Posts tagged ecological landscaping
The Impact of Non-Native Plant Species in the Western Ghats

In the Western Ghats, the spread of non-native plant species is rapidly replacing native vegetation, causing significant ecological imbalance. This invasion is leading to a food crisis as these plants disrupt the natural habitats of key prey species. As a result, wildlife is forced to enter human settlements in search of food, increasing conflicts between animals and communities.

Western Ghats, pc: Parnavi Bangar

Invasive species like Lantana, African Tulips, and Morning Glory are widespread, causing notable damage to our ecosystems. These aggressive plants are not native to India and are displacing traditional fruit-bearing trees such as mangoes, wild jack, wild berries, and other native plants in various forests. Their rapid growth makes them difficult to control, posing a threat to the health of our forests.

Tall Morning Glory

Source: Guests who never left

The Tall Morning Glory also known as Kaladana is a fast-growing vine that can reach 2-3 meters in length, with slender, hairy stems and heart-shaped leaves. Its vibrant blue, purple, or pink flowers are funnel-shaped, and it produces up to 25,000 seeds per plant, which can spread by wind, rain, or accidental human activity.

Kaladana grows by twining around other plants, creating a thick canopy that shades and competes with them for nutrients and water. This makes it a troublesome weed, as it can significantly reduce crop yields. It can also spread rapidly in both disturbed areas and forests, making it a challenge to manage.

Young seedlings can be easily pulled out by hand. For small patches, cutting the plant is an option, but make sure to dig out the roots to prevent it from growing back. In areas where the vine forms large patches, cutting followed by herbicide application is recommended to stop regrowth.

African Tulip

Source: Guests who never left

The African Tulip, also known as Pichkari and Rugtoora is a medium-to-large tree that can grow up to 35 metres tall, with a wide crown and smooth, greyish-brown bark. It has deep green, glossy leaves and produces striking orange-scarlet flowers, with its seeds dispersed by wind.

Pichkari trees invade open pastures, abandoned agricultural land, plantations, and disturbed forests. They grow rapidly, forming dense stands that suppress other vegetation. The flower nectar is toxic to insects, while mammals like Nilgiri langur and barking deer eat the flowers, and parakeets and squirrels consume the seeds.

To manage African tulip trees, young trees can be uprooted, though large trees may resprout from root fragments. Chemical control includes injecting herbicide into young tree trunks or applying it to stumps of cut trees. In some areas, biological control using pathogenic fungi has been effective for young trees.

Lantana

Source: Guests who never left

Lantana, or Raimuniya and Tantani, is a woody shrub that grows 2-5 metres tall. It thrives in both dry and wet environments, forming dense thickets or climbing trees. Found across India, including Goa, its leaves are rough, oval, and green with toothed edges. The small, colourful flowers attract butterflies, and its fruit turns from green to black, dispersed by birds and mammals.

Lantana's dense growth prevents native plants from growing and changes forest structure. It increases fire risks and is toxic to livestock, reducing available forage. Lantana also hosts diseases like sandal spike disease and suppresses important plants like amla, posing risks to forest communities.

The most effective removal method is cutting the plant below the root collar to prevent regrowth. Uprooting is less effective and labour-intensive. Consistent removal and establishing canopy cover can help control Lantana.

Conclusion:

There are many such invasive plant species altering habitats in our forests. Managing them in the forests of the Western Ghats is crucial for preserving biodiversity and ecological balance. Raising awareness about such species and promoting knowledge about native trees is essential for safeguarding our environment. 

This understanding is particularly valuable for individuals managing their gardens, such as in Goa, where knowing about trees in Goa is crucial for effective plant management. For further information on such species refer the book ‘Guests who never left’ and the article ‘No food in Forests’ for Invasive species in the Western Ghats. For more tips on living in Goa and managing your home and garden, stay tuned to our blog!

The Trees of Goa's Roads and Homes

Goa is a goldmine of biodiversity and trees are the crucial negotiators that tie these ecosystems together. As awareness increases about habitat loss and deforestation, people have taken the responsibility of hosting planting and re-wilding drives. The first step in this process is to identify and select plant species which are most effective and resource efficient for natural landscaping.

Here are popular, easy to source, and easy to plant species that are commonly found along Goa’s roads and within Goan homes.

AVENUE TREES

These trees are typically used for roadside planting owing to their large and extensive canopies that offer shade throughout the year. One often finds seasonal flowering trees chosen as avenue trees. However, fruiting varieties are typically avoided and are found mostly in private properties.

 

01 The Indian Laburnum

 

Cassia Fistula or The Indian Laburnum or Amaltas as it is locally called is a medium-sized deciduous tree. It is a sun loving tree that is known for its abundant and glorious yellow summer flowers. The tree is extensively found in Goa, especially along the roads of Panjim.

02 The Scholar’s Tree

The Scholar’s Tree or Satvin as it is locally called is a tall, evergreen tree with branches in whorls. The tree blooms in the winter with white, fragrant flowers that are found in clusters. The tree is found all over Goa and is also otherwise known as The Devil’s Tree.

HOME TREES

Goa’s incredible biodiversity is best experienced at home. Homeowners can choose to plant any native flowering or fruiting tree without worrying about extensive care or maintenance. Many of these trees are also found in Goa’s public gardens and are known to attract a wide variety of birds and butterflies. These trees also support a lot of insects and creepy crawlies. This post tells you how you can design to coexist with and celebrate Goa’s diverse flora and fauna.

 

03. The Frangipani Tree

 

Plumeria Rubra or Plumeria Obtusa or Frangipani or Champa as it is lovingly called is a tropical tree and is a residential favourite in Goa. The Champa shrub has a lovely sculptural form and requires little maintenance. The plant does not require too much water and can thrive in any well-drained soil. The flowers are fragrant, bloom throughout the year, and come in different colours.

04. The Traveller’s Palm

The Traveller’s Palm is a picturesque spreading tree that looks beautiful when used along compound walls and the site edges. The fan profile layers over and blurs the hard site edge while also creating privacy. The palm is water loving and retentive, making it a valuable landscape feature during Goa’s heavy monsoons.

Also read about the native trees of Goa here.

Find a detailed list of Goa’s native trees in this directory.

Read our blog post on Protecting the Western Ghats here.

Sustainable Architecture - Building a Reed Bed System for Wastewater Management
 
 

In this IG Live, we speak to Dr. Ajit Gokhale, the founder of Natural Solutions, India to discuss ‘Building Reed-bed system for Wastewater Management’.
Over our conversation, we get into details about the components of a Reed bed system, how the water purification is carried out, and the right methods of implementation. We also debunk common misconceptions about reed beds such as odor and maintenance requirements. Finally, we speak about the different types of flowering and fruiting plants that can be used for reed bed systems in Goa and along the Western Ghats.

Natural Solutions aims to spread environmental literacy and offers sustainable solutions for Urban as well as Rural Problems of water scarcity, Solid Waste Management, and wastewater treatment. Here are some key takeaways from our conversation.

Debunked myths about reed-bed systems

  • A reed bed system does not smell if designed correctly. The simple precaution of introducing the inlet pipe at the bottom of the reed bed and not the top of the ensures that no foul smell is emanated.

  • A reed bed does not have to be designed in a segregated area. It can very much designed as part of the landscape to be a walkable, usable space that can be accessed regularly.

  • A reed bed can be used to effectively purify not just greywater but also black water and industrial wastewater when implemented correctly. It does not require significant additional maintenance.

Maintaining a reed-bed system

  • A reed bed system typically consists of two parts - a sedimentation system (a septic tank/ an anaerobic digester/ Jalrakshak) and a filtration system (the reed bed itself). The entire system requires very little external care or maintenance.

  • As with any common drainage or waste treatment system, the septic tank/ anaerobic digester/ Jalrakshak has to be cleaned occasionally.

  • The reed bed itself does not require any maintenance. The plants can be trimmed for aesthetic value but it is not necessary. Trimming does not hamper the reed bed system as long as it is done as per a pruning schedule. Care has to be taken that the base of the plants are intact.

Benefits of a reed-bed system

  • A reed bed system is a one-time investment with lifelong benefits. It is extremely low maintenance in the long run.

  • Depending on the microclimate, the reed bed can purify every 1L of impure water to create 0.7 to 0.9L of filtered water that can be reused.

  • The filtered water can be reused for irrigation & gardening, washing cars, and for flushing.

  • The reed bed can be integrated as an accessible part of the landscape of the house with flowering and fruiting plants and trees that become home to local biodiversity.

Reed beds are sustainable, scalable, cost-effective ecologically engineered systems that can effectively purify wastewater. They are easy to maintain and can be designed into the landscape irrespective of the project size or typology.

 
 
Native Trees of Goa

Goa is a goldmine of biodiversity and native forests are the crucial negotiators that tie these ecosystems together. As awareness increases about habitat loss and deforestation, people have taken the responsibility of hosting planting and re-wilding drives. The first step in this process is to identify and select native plant species which are most effective and resource efficient for natural landscaping. Native trees offer huge short term and long term benefits:

  • Native trees are well-adapted to the local climate, which means they will have the best chance at survival.

  • Native trees prevent population decline of the local wildlife as the animals are not forced to shift into unfamiliar habitats.

  • While non-native trees might not do well up against local pests, native trees often don’t have as many pest problems because they develop symbiotic relationships with other local species.

Here are 4 popular, easy to source, and easy to plant native species of Goa:

 

Terminalia Elliptica or The ‘Indian Laurel’ is the State tree of Goa. A few other names of this tree are Mati, Asna, Saj, or Crocodile Bark Tree.

nurserylive-seeds-terminalia-belerica-bahera-0-5-kg-seeds-16969376497804_512x512.jpg

Terminalia bellirica is a deciduous tree that grows upto 35 m in height. It is a sun loving tree that thrives in slightly moist soils. The fruit of the tree is often celebrated for its medicinal properties.

Pterocarpus marsupium, also known as Asann and Malabar kino is a deciduous tree that can grow up to 30 m (98 ft) tall. It is native to India, Nepal and Sri Lanka. The beautiful yellow flowered tree however is currently on the list of threatened species due to dwindling numbers and needs to be revived.

Holoptelea integrifolia, also called The Indian Elm is a deciduous tree that grows upto 25m in height. It is often sourced for timber which makes cheap furniture and also used as firewood in rural parts. Its flowers, leaves and bark have medicinal uses.

 
 
 

Apart from this Goa has several indigenous fruit trees including jack fruit, tamarind, guava, pineapple, and kokum. While these are not advisable for highways, they are wonderfully suited for smaller city avenues, parks, city campuses, and most importantly individual residential plots.

A detailed list of Goa’s native trees can be found in this directory. These trees support a lot of insects and creepy crawlies. This post tells you how you can design to coexist with and celebrate Goa’s biodiversity.

Goa is listed among the 36 most important biodiversity hotspots in the worls. To know more about the ecological significance of this belt, you can read our blogpost on Protecting the Western Ghats here.

Sustainable Design - 'The architecture of a water system' with Dr Pallavi Latkar

In this IG Live, I speak to Dr Pallavi Latkar, the technical brains behind the ecological site planning at our project, The House with Three Pavilions . Pallavi is an ecological expert, she is the Founder and Director at GRASSROOTS Research & Consultancy in Mumbai. Over the Live session, Pallavi and I discuss the extensive rain water harvesting system we have created at The House with Three Pavilions. For this site with many contours and topographical variations in Goa, this monsoon ready water management has been a great way of rainwater harvesting and distribution to recharge the underground water table. Over the course of our conversation, we get into the details behind the site planning and construction, discussing the key techniques we have employed. We also speak about the benefits of conserving natural water systems and debunk myths around the maintenance of these systems.

Here are some additional takeaways from the session:

  • Every site has a story to tell - the story of its soil, water, and vegetation. Listen to the story - smell, see, touch and feel its elements.

  • Our sights have many hidden clues in plain sight - within the trees, plants,and shrubbery. FOr example:

    • A Mango Tree with a dense canopy tells us the site has a good water table.

    • The presence of wild Colocassia indicates the spot where water will stand and collect in the monsoons.

    • Moringa and Neem Trees are native trees that are most beloved by birds.

    • ‘Shankasur’ or Cesalphinia is a favourite haven for bulbuls.

    • Fish-tail Palms will attract Barbets, Coppersmiths, and Hornbills.

  • Young architects who do not have access to an environmental consultant can start off by using free and universal tools such as:.

    • Google Earth Imagery from which contour levels of the site can be approximately extracted. 

    • Toposheets of India can be found online - it may require some searching on websites of Landscape Universities worldwide. 

    • Rainfall data and history are available online at various sites including The Meteorological Department website to ascertain the precipitation on your site.

    • The website of The Irrigation Department of India which gives the specifics about soil in every region. 

    • Software like Google SketchUp, Revit and Grasshopper which allow you to geo-locate and model the site and surroundings in 3D which will help you visualize the terrain.  

 
A Site Positive Approach - House with Three Pavilions
 

How does one build in a rural location with the objective to have minimal or zero-impact on the environment?

This question is the primary driver behind the site planning strategy for The House with Three Pavilions located in Goa, India.

The project site is located on the edge of rice paddy fields with a dense cluster of local forest trees on one side and a coconut grove in the middle. The following diagram illustrates some of the critical measures taken as part of the site planning strategy.

WHY IS AN ECOLOGICAL RESPONSE ADOPTED?

  • As Goa gentrifies, rampant new construction threatens to rock the delicate balance between nature and man. This project is our attempt to showcase that the built form can tread lightly on the land with conscious design and measured planning. 

  • The design focus is to leave a minimal or zero-impact on the functioning natural ecological cycles at the site that pre-date the new construction. 

  • The site is geographically located along the path of the watershed from surrounding higher elevations that finally drains into the Arabian Sea. The design planning is oriented to support and improve the water movement through a comprehensive water management plan.

  • The water management plan is implemented to address three primary concerns around the site - to recharge the depleted underground water table, to increase water availability for the paddy fields bordering the site, and to reduce the water load on the Municipal Draining system.

WHAT HAS BEEN DONE?

  • During the survey, a natural depression was found at the center of the site with a perennial wetland hosting diverse flora and fauna. This existing depression was dug out (until the underground water level in the driest month) and integrated with the existing well on the site. Today, this natural wetland feature is preserved and developed into a seasonal waterbody which also forms the focal point for the landscape created using a native planting strategy.

  • All the roof rain water runoff is captured and along with the site surface runoff, it is directed into the central seasonal pond for rain water harvesting. The edges of the pond were formalized with mortar-less retaining walls built in local laterite rubble. This was done to reduce the erosion of the pond edges and to retain the water as a permanent feature in the landscape

  • The pond was further connected to a newly planned system of bioswales that spread the collected runoff water over a larger site surface area increasing the rate and extent of percolation on the site. This keeps the level of our underground water table high throughout the year and the soil moist, reducing the garden irrigation requirement in the dry season.

  • The bioswales use no cement in their construction and can absorb water through the walls and the base. The construction of the bioswales and the pond without cement, also allows for the water to remain clean without any toxicity of the cement leaching into the landscape.

HOW DOES THIS CREATE A POSITIVE IMPACT?

  • The water management was a critical part of this project and offsets the load on the rudimentary public storm water systems found in the Goan villages especially during the heavy monsoons.

  • As a result of our efforts, the underground water levels have been improved hence negating the impact of the house construction on the environment. We have been able to prevent any additional flooding at the neighboring fields or any other low-lying area in the village. 

  • The project also prioritises the enhancement of the site’s resources and biodiversity. In doing so, it also creates a positive impact on its surroundings by protecting the agrarian viability which is constantly threatened by new construction and increased human activity. Our success can be measured by the number of birds, reptiles, butterflies and insects that can be found on the site today. We have uncovered peacock eggs, cuckoo eggs and baby parrots on our site. It is a win to see that the animals continue to find the site a safe space even as they come in close contact with the human life around, making this truly a space for all seasons and species.

(Water Management Plan in consultation with Pallavi Latkar and team at Grassroots Research Mumbai.)

 
 
DESIGNING A Green BUILDING
 

What is a green building?

A green building is one where you’re trying to reduce the impact of the construction on the environment. It is about making the right choices at every stage and  looking at every possible way, to optimise resources during and post construction and to minimise or offset one’s footprint right from the design stage to the occupancy stage. Right from positioning the building on the site, being mindful of the solar and wind orientation, looking at the existing resources on site to incorporate them into the building, preserving the underground water table - the environment is part of the design criteria from the very first step of the design process.

Here are some tips for an architect to design a green building

  • The building should be designed for its local climate and weather

  • The design should be site specific

  • The natural features on the site must be preserved whether it is the trees, the underground water table, the contours and terrain, etc

  • Plan openings for maximised daylight and cross ventilation

  • Reduce the urban heat island effect 

  • For landscaping, use lesser amounts of non permeable surfaces like concrete and more permeable surfaces like grass that allow water to percolate and recharge the underground water table

  • Reduce concrete exposure because concrete tends to absorb a lot of heat

  • Enhance thermal comfort by thinking about all parts of the envelope - the walls, the windows, the shading devices, the roof, etc - to reduce energy expenditure

  • Conserve water and collect or harvest rainwater

  • Use aerators for taps and dual flushes for WC

  • Use solar water heaters

  • Use solar panels if the site allows for it

  • Compost using house and site waste and feed it back to the garden

  • Reduce, Reuse, Recycle

Every little detail helps.

Links to our previous Blog Posts on Green Building:

 
Afforest - Growing Urban Forests
 

At Grounded, our core mission is sustainability and it really breaks our heart when we read stories on the deforestation of the amazon or deforestation in Asia for Palm oil production. Recently, we came across this article on a brilliant organization, Afforestt and its efforts to create urban forests. Afforestt is based in Bangalore, founded by Shubhendu Sharma and has done consulting work in several countries. They follow a method for afforestation pioneered by a Japanese botanist, Dr. Akira Miyawaki. We got so into the idea that we did a bit more research and have put together a short summary of our findings below.

Research done by Maryam Sheikh, Junior Architect at Grounded.

Edited by Roshini Ganesh, Communications at Grounded.

THE MIYAWAKI METHOD OF AFFORESTATION

The Miyawaki method is a global – local practice of afforestation pioneered by a Japanese botanist, Dr Akira Miyawaki. Dedicated to the protection and regeneration of forests, it places emphasis on the value and contribution of native species to the environment as well as the social fabric that thrives around it. It educates us on how real forests are made up of multi-layered native trees, and that such forests stay firm when subjected to natural disasters.

With increased and widespread deforestation and forest wildfires, it becomes paramount that efficient solutions also flood the world. Disasters such as the Australian bushfires and the unprecedented Amazon rainforest fires have jolted the world awake and into action mode. Yet for those who truly care about climate action, we have systems that have long been working towards protecting the environment without the need of an emergency to spring into action.

the_miyawaki_method_a_better_way_to_build_forests_3_1050x700.jpg

The Miyawaki method makes strides by enabling the creation of micro, mini and mega forests using the same core principles. It gives us layered and more variegated habitats that are dependent on local flora and fauna. It is important to note that it is this consideration of native species that sets this method apart, and not the way of placement. 

The following are the steps to realize this ingenious method:

  1. First, the soil is prepared by adding a combination of materials that allow for perforation and water retention. Naturally available resources such as rice husk, wheat husk, peanut shells, and corn cobs perforate the soil and make room for the plant roots to grow quickly. Water retainers like coco peat and sugarcane stalk increase the soil’s water retention capacity. To complete the preparation, nourishing mixtures like manure and vermicompost are added to the composition to create a nutrient rich environment for the saplings.

  2. Next, the land is surveyed to identify native species that are best suited for plantation together. Not everything that grows in a space belongs there - it is therefore important to look through the historical records of that region in order to understand what is really native. The local plant species are categorized into 4 layers:

    1. Shrubs – those that grow up to 6 feet (1.8m)

    2. Sub-trees – that grow up to 25 feet (7.6m)

    3. Trees – that grow up to 40 feet (12 m)

    4. Canopy trees – that grow above 40 feet

The saplings are introduced at a stage when they have grown to a height of 24-32 inches (0.6-0.8m) above the ground.

House in Goa


3. The design and arrangement of the forest belt is the next step. The more staggered the species are, the better it is for the forest. These various indigenous trees are planted close to each other with an average of 3-5 saplings accommodated in every square meter. Contrary to most myths, the saplings will not fight for nutrition, but learn to survive in a co-dependent manner. The plants work in harmony to create strong root networks underground that allow them to interact with each other and share nutrition between species. This also reduces the depletion of soil nutrition, and erosion over time.

4. Once the saplings are planted, the soil needs to be layered with a thick layer of mulch that acts as a soil insulator to ensure the moisture within remains intact and does not evaporate. To safeguard the upcoming forest saplings against weeds, the land requires maintenance for the first 2 years, after which the mantra becomes– “No management is the best management”.

Living in Goa

The density of these tight-as-a-fist forests creates a diverse natural habitat above ground that invites varied biodiversity over time. It also creates a steady nexus of root clusters below ground that stay strong and hold ground when faced with natural calamities like storms, floods, tsunamis as well as man-made adversities like deforestation.

Moving to Goa

The Miyawaki method was first brought to India in 2009 and has been adopted by Afforest – a social enterprise founded by a humble engineer and environment saviour, Shubendu Sharma.

His sincere effort to spread the technique has already touched ground in 50 cities across the globe empowering people with information on how to grow a forest, starting with their own backyards. His studies illustrate the exponential benefits of growing a multi-layered forest vs a monoculture forest to create a habitat that is 100 times more bio diverse, is 100% natural, allows for 30 times more groundwater recharge and soil conservation, among many others.

Goa Miyawaki Forest

Many homegrown organisations like Afforest, Thuvakkam (Chennai), and SayTrees (Bengaluru) use the Miyawaki method in afforestation throughout India. Afforest has planted 4.5 lakhs trees across their 108 projects; ninety of these sites are located in India. Say Trees engages with citizens and corporates, and has helped plant 70,000 trees in Bengaluru from 2008.

Adjacent to the Manyata Tech Park, five mini forests have been planted by a team of 15 citizens, spread across 7850 sq m. All of these have been created by the residents of Manyata Residency nearby in close collaboration with Say Trees.

Houses in Goa Urban Forest

Other organisations such as the Sugi Project take the concept of re-wilding urban land door to door and empower everyday citizens to invest in nature and restore biodiversity. Their ongoing project at Maruvan with Afforest takes the Miyawaki idea many steps forward, envisioning a nursery, a tree seed bank, and a forest on presently arid desert terrain. These forests create a natural native green lung, bring alive degraded land, offset the carbon footprint, and build community.

House in Goa

Afforestation through the Miyawaki method enlivens the land as well as the very idea of plantation. It arms us with the ability to make the dream of living near a forest, a reality – provided we create one. It gives us the opportunity to take responsibility for better natural systems, to create space for biodiversity, and to create hope.

 
DESIGNING A HOUSE IN GOA: SERIES PART 11: RAINWATER HARVESTING

I recently read an article on how the wettest place on earth, Cherapunji in the east of India is experiencing water shortages. The news was not overly shocking, as we have all heard about the water woes in Bangalore (where it is believed that the city would have to be evacuated by 2025), Delhi, and all other major cities in India. The slightly shocking part with the Cherapunji story is that it has an abundant source of water in the form of rain, and the reason for its water shortage is simply the ignorant management of resources on the ground.

The story is not much different in Goa as well. Goa receives 300 inches of rainfall during a 4-month monsoon season each year. Inspite of this abundance of rain, there are frequent water shortages in Goa, and the water level in village wells across Goa are dropping at an alarming rate. This makes the significance of rainwater harvesting in houses in Goa of paramount importance.

rainwater harvesting in Goa.jpg

In addition, I strongly believe that all new construction in Goa must manage its rain water discharge. We often experience that during the monsoon the excess run off from built areas result in flooding of low-lying areas. As responsible builders, we must accept that the public storm water drainage system is just not equipped to handle the pressure of new development and we must manage our rain water independently and ideally, use the rain water to recharge the underground water table. In Goa, the rain water drainage is closely linked to the cycles of paddy agriculture. These systems have been working for centuries and are the lifeline for paddy agriculture, an important source of livelihood and lifestyle for Goans that must be protected.

As a standard practice across all our projects, we harvest all the rain water from our site as well as from the roofs of the built structures and allow it to percolate back into the ground in an attempt to maintain the underground water table for our site and surroundings. This practice directly supports our larger design intent where we wish to minimize the impact of our building activity on our site and the environment.  

At the House with Three Pavilions in Goa, we have taken rainwater management many steps further by designing a comprehensive water management plan for the entire site. The objective is to retain most of the rain water within the site and to recharge the underground water table, minimizing the impact of the new construction on the land. All the roof rain water runoff is captured and along with the site surface runoff, it is directed into the central seasonal pond. The pond is connected to a newly planned system of bio swales that spread the collected runoff water over a larger site area increasing the rate and extent of percolation on the site. These beauties utilize no cement in their construction and can absorb water through the walls and the base. The bioswales are designed as gabion walls, stone walls within a GI frame, hence are perméable to water. 

The water management system furthers the connection of the home and its residents to nature as the water will ebb and flow with seasons, will encourage the growth of wild grasses and flowers, and retain the land as a home for the diverse insect, reptile and bird life that we encountered on the virgin land prior to construction.

(Water Management Plan in consultation with Pallavi Latkar and team at Grassroots Research Mumbai.) 

READ ON

Wander & Wonder at Rao Jodha Park in Jodhpur

Jodhpur is a beautiful city, with a majestic fort, luxury hotels, incredible shopping and even a zipline for the adrenaline junky. To add to it all, I found another visionary piece of the city quietly tucked away in the hills below the Mehrangarh Fort.

Rao Jodha Park, is a one of its kind, concerted effort in India to restore the natural ecology of a place. The large, rocky wasteland (now the park) had been taken over by Baavlia, a foreign invasive shrub from Central America.

Baavlia, a fast spreading plant (some consider it a weed) was introduced in Jodhpur over a century ago. It was originally thought that this magic plant would provide abundant grazing for the cattle in the city. The result however was that, it killed all the native plants in the area, and the animals refused to feed on it.

In 2006, identifying this as a problem with long term environmental damage, the Maharajas of Jodhpur initiated a project to restore the area to its original ecosystem. I was told that eradicating the Baavlia, sourcing seeds of original native species and allowing them to thrive once again was an arduous task. But the result is beautiful, it is a piece of historic Thar desert landscape, that is dry, rocky, with surprising bursts of color and water!

I am a huge optimist and any small measure of thoughtful action makes me happy and brings me joy. So I loved being in the park, listening to the stories, learning about the desert landscape by exploring, taking in the sights and smells. It is a great place to wander and wonder about the complexity of nature, its delicate balance and yet the resilience and longevity of it.

Why are native plants important ? Native plants are the species of plants that have adapted to the geographical and climatic conditions of a particular place. They are a vital part of the local food chain and natural ecosystem that has balanced itself over many years. They do not require additional irrigation, fertilizers, or other resources to grow. Once taken root they form a part of the ecosystem and can peacefully co-exist with other varieties of local flora and fauna. Finally, many traditional practices and livelihoods in the local area may also depend of the local species, such as traditional medicine, fodder for cattle, shelter, crafts, etc.

All images courtesy of Rao Jodha Park website and Motherland Magazine Ecology issue.