In India’s IT capital Bengaluru, sprinkled within its concrete jungle, are shady peepal trees adorned with serpent stones, bells and sacred threads, standing majestically atop gated raised platforms.

Often a pit-stop for tired travellers or an informal gathering place, these culturally-important open-air tree shrines or kattes and temples, with their assemblage of native tree species, offer immense scope to enhance the green infrastructure within rapidly growing megacities, suggests a study.

Offering a glimpse into the city’s native trees, the study documents 121 such species thriving in 69 sacred sites in Bengaluru, spreading across 36 temples and 33 kattes, a sizeable amount for small green spaces that are no strangers to the march of urbanisation.

Overall, 69% of the species documented are native, indicating how cultural traditions have helped communities cling on to these heritage trees and plants.

Among the 121 species, the peepal or Ficus religiosa and neem or Azadirachta indica trees occurred frequently in the sacred sites followed by doob grass or Cynodon dactylon.

A katte near Vanivilas road, Bengaluru. Kattes are open-air tree shrines and informal community spaces which harbour many native plant species. Credit: Steevez Rodriguez/PEP Collective

Native species dominate

“The prevalence of native species at our study sites can be explained by their cultural significance as sacred species,” said study author Divya Gopal of the Department of Ecology, Technische Universitat Berlin, Germany. For example, neem and peepal have deep socio-cultural connections and are entrenched in local folklore.

As recorded in the study, culturally significant species such as those with religious associations, medicinal uses and ornamental value – often with overlaps – collectively account for 89% of all species documented in the sacred sites.

The dominance of species with religious, medicinal and ornamental values in these unconventional green spaces is linked to the cultural ecosystem services provided by these sites. Associated spiritual and religious values could prompt community support and the willingness to participate as seen in non-urban sacred sites, researchers said.

121 species of plants were documented from 69 sacred sites including temples and kattes, contributing to the city’s biodiversity. Credit: Steevez Rodriguez/PEP Collective

Urban ecologist Harini Nagendra, who was not associated with the study, stressed how critical it is to protect these green patches.

“In Indian cities, trees are fast disappearing from public spaces,” Nagendra said. “Sacred sites and the keystone Ficus trees they contain are very important in providing shelter and breeding and feeding habitat for a variety of urban wildlife, and in providing stepping stones that help connect the few remaining large urban green spaces, so that species can move between them.”

Nagendra said they are also sites of long-lived species and maintain continuity over time because of sacred practices of conservation – when one tree falls, it is replaced by planting of the same species. This makes them especially critical in Indian cities where trees are often felled and compensatory planting takes place in distant locations, leaving the wildlife that depended on these trees in specific locations especially vulnerable.


Kattes, temples, parks

Trees dominate the species mix in these often over-looked sacred sites, making up about 38% of all species, followed by 28% shrubs, 22% perennial herbs, 9% annual herbs and 2% perennial graminoids.

When compared to parks, sacred sites had a higher tree density and tree species richness that could be due to design and cultural preferences.

“Parks are designed to include both wooded areas as well as lawns,” explained Gopal. “While lawns are often not a part of the landscape element of sacred sites. This could be one of the reasons for the higher tree density. Also, there is a general preference to grow certain sacred trees [such as neem, peepal, banyan, paarijata, tamarind and coconut] within sacred sites.”

And most of these species are native to the Indian sub-continent, she added. While in parks, the focus is on ornamental species and shade-giving species. Most ornamental species are non-natives originating from Africa and South America, pointed out Gopal.

69% of these species observed at the sacred sites were native. Peepal (Ficus religiosa) and neem (Azadirachta indica) trees occurred frequently in the sacred sites followed by doob grass (Cynodon dactylon). Credit: Steevez Rodriguez/PEP Collective

Further, temple spaces harbour a greater diversity of non-native species than kattes. “This is because temples are more intensely managed than kattes,” explained Gopal. “Temples are more formal establishments often with a gardener or a caretaker. Kattes are informal. Gardening practices such as growing ornamental plants were noticed in temples as opposed to kattes.”

Spontaneous and cultivated species had a nearly equal presence in sacred sites. Underscoring the potential of urban sacred sites for spontaneous regeneration of plant species, Gopal said, the process is important for ecological restoration and recovery of urban ecosystems that go through a lot of stress from urbanisation and development. It helps in developing the natural vegetation and biodiversity of the region.

Despite the constant transformation of green spaces such as parks, open areas, avenue trees and lakes into different landforms in Bengaluru there is a core element of continuity in sacred sites in terms of their appearance and usage.

Though the plant biodiversity at sacred sites have been safeguarded by cultural practices, they and increasingly vulnerable to infrastructure projects in the megacity. Credit: Steevez Rodriguez/PEP Collective

This structural constancy across the city – either as temples or as kattes – along with the cultural and religious significance of these sites, could explain the lack of influence of housing density and age of urban development on the diversity of trees in urban sacred sites.

As many as 23 sacred sites are located in old neighbourhoods, 24 in intermediate and 22 in new ones, the study reports.

“There is an assortment of species in sites in the new areas of Bengaluru compared to other parts of the city,” said Gopal. “Sacred sites located within low-density housing areas had more individuals [higher abundance] of cultivated species than sites embedded in more dense quarters of the city.”

Nagendra batted for heritage mapping of the sacred spaces in the city, followed by according them specific protected status as heritage trees.

One such mapping project that has emerged in the city is the Mapping of Ashwath Katte or peepal trees where citizens take pictures of peepal trees in their neighbourhoods and upload it on an online platform with a description.

In the absence of mapping, Nagendra said, they may slip through the cracks. They are especially vulnerable to city developmental activities, such as road widening, construction of transformers among others.

“I have seen a number of these trees disappear – not because residents cut them down [they protect them] but because civic authorities do,” Nagendra said. “They need to be mapped and protected by the city as part of its cultural and biodiversity heritage.”

This article first appeared on Mongabay.