Bengal Slow Loris

 The Bengal Slow Loris

The Bengal Slow Loris is 34-38 centimeter in length and weighs 650-2,000 gram. Its dorsal fur is light brown, with much lighter ventral fur. The face is creamy white with triangular patches of dark fur around the eyes, which are occasionally connected via a fork to the dark stripe on the head. The dark head-stripe occurs at the middle of the head that changes to a dark brown-black at the shoulders and continues as a dorsal stripe to the middle of the back. The species does show some seasonal variation in pelage but this is not well documented

Last month while researching for a primate tour in India I came across a unique primate – The Slow Loris. Not only are these one of 10 smallest primates in the world, they are also the only venomous primate in the world. Yes! Venomous primate!

With my interest piqued, I started studying more about this close cousin of ours. The Slow Loris comes from the genus Nycticebus which consists of four species: Pygmy Slow Loris, Javan Slow Loris, Sunda Slow Loris and our very own Bengal Slow Loris. The Bengal Slow Loris has the largest distribution of all the slow lorises and can be found in Bangladesh, Cambodia, southern China, Northeast India, Laos, Burma, Thailand, and Vietnam.

It is nocturnal and arboreal, occurring in both evergreen and deciduous forests. It prefers rainforests with dense canopies, and its presence in its native habitat indicates a healthy ecosystem. It is a seed disperser and pollinator, as well as a prey item for carnivores such as Pythons and Hawk eagles. Its diet primarily consists of fruit, but also includes insects, tree gum, snails, and small vertebrates. The species lives in small family groups, marks its territory with urine, and sleeps during the day by curling up in dense vegetation or in tree holes. It is a seasonal breeder, reproducing once every 12–18 months and usually giving birth to a single offspring. For the first three months, mothers carry their offspring, which reach sexual maturity at around 20 months. The Bengal Slow Loris can live up to 20 years.

Now since we have already told you that this is a venomous primate let us understand a couple of things: How does the ‘venom’ work? Are they venomous or poisonous? And what’s the difference between the two.

To begin let us first understand “brachial glands”. The flexor surface or the ventral side of the elbow has a slightly raised but barely visible swelling termed the brachial gland. Observations from captive slow lorises show that when the animal is disturbed during handling, they secrete about 10 microliters of clear, strong-smelling fluid in the form of an apocrine sweat (exudate) from their brachial gland. Usually, male and female slow lorises assume a defensive stance when disturbed. They bend their heads downwards between uplifted forelegs, rubbing the brachial gland exudate onto their head and neck. Slow lorises frequently lick their own brachial gland regions and wipe their brachial gland against their head. The brachial gland is active in lorises as young as 6 weeks old.

The main difference a venomous and a poisonous animal is that a venomous animal injects toxins into its victim’s body by bite or sting. A poisonous animal, on the other hand, produces toxins that are poisonous once inhaled or ingested like a Puffer Fish. Medical literature shows that human – Slow Loris injuries come from Slow Loris bites and not from ingesting their toxins. So, are slow lorises venomous? Well, not quite….

Lorises have got strong jaw muscles and pointed teeth with cutting edges easily piercing human skin or thin gloves. Health problems after Slow Loris bites may be either due to presence of a toxin produced by the animals, due to bacteria and viruses transferred by bites or due to an anaphylactic shock (extreme allergic reaction). Loris brachial gland secretion includes two toxins, made inactive by inhibitors; when mixed with saliva, after licking of the brachial glands, the enzymes from the saliva break down the inhibitors and make the saliva-secretion mixture toxic.

Anaphylactic shock: in people, regularly in contact with slow lorises, saliva may repeatedly come into the body through tiny, maybe invisible wounds. If the Loris keeper develops an allergy against this saliva, an allergic shock is possible (independent from the quantity of substance causing it, within seconds to minutes, in one case described lasting two hours), although this is a rare disease. Symptoms of anaphylactic shock may be: initially burning tongue and throat, a sensation of heat, red, itching skin, wheals, very low blood pressure, shock, convulsions of muscles (pain), pain in the heart and kidney region, respiratory problems (constriction of airways), heart problems, and possibly unconsciousness. Occurrence would make an immediate call for medicinal help necessary; first aid: measures against shock such as lying posture with legs a bit higher, assuring sufficient blood supply for necessary organs.

Slow lorises have needle-like teeth called dental combs or tooth combs on their lower jaw. Paired with the constant licking of the brachial gland, it is not surprising that one would assume the dental comb plays a part in injecting brachial gland exudate into unsuspecting victims. However, this is not the case, based on these published reports, it seems that Slow Loris bites are not venomous the reaction is largely to the exudate’s allergen secreted by the brachial glands which is like the Fel d 1 allergen in domestic cats… just more potent I guess.

The biggest challenge that these beautiful creatures face today is the meat and pet trade. People will often buy Loris as pets as they look adorable however, as in the case of all exotic pets most of these pet owners do little to no research about the species and have no clue about how to raise one in a home environment often unknowingly creating an environment or a situation harmful for the species.

IMPORTANT  POINTS TO REMEMBER

The Bengal slow loris is a gum-eating, nocturnal, tree-dwelling primate species found in northeast India.

Limited information on its status and ecology is the main hindrance to developing a conservation strategy for this species in India, state experts.

The species, which is listed as Endangered in the International Union for Conservation of Nature’s Red List, is heavily hunted and traded despite being legally protected under the Wildlife Protection Act, 1972.

WORLDS FISRT RENEWABLE(SOLAR) ENERGY SUMMIT

 RENEWABLE ENERGY

First World Solar Technology Summit 

 The first World Solar Technology Summit (WSTS) is being organized by the International Solar Alliance (ISA)

on 8th September, 2020.

 The Federation of Indian Chambers of Commerce and Industry (FICCI), as the convener of ISA Global

Leadership Task Force on Innovation, is working with ISA in organizing the summit.

 The summit will witness the announcement of agreements between ISA and following institutions

1. International Institute of Refrigeration,

2. Global Green Growth Institute

3. National Thermal Power Corporation.

 A tripartite agreement between India‘s Ministry of New and Renewable Energy, the World Bank and the

International Solar Alliance is also set to be inked.

 ISA‘s technology journal, Solar Compass 360 will also be l

World’s Largest Solar Tree

 CSIR- Central Mechanical Engineering Research Institute (CMERI) has developed the World‘s Largest Solar 

Tree and installed it at Durgapur, West Bengal. 

 The installed capacity of the Solar Tree is above 11.5 kWp. 

 There are a total of 35 Solar PV Panels in each tree with a capacity of 330 wp each. 

 It has the annual capacity to generate 12,000-14,000 units of Clean and Green 

Power, West Bengal.

 The inclination of the arms holding the Solar PV Panels are flexible and can be 

adjusted as per requirement, this feature is not available in Roof-Mounted Solar facilities.

 MSMEs who are interested in the solar tree can align their Business Model with PM KUSUM Scheme for 

farmers, for developing a Renewable Energy based Energy Grid.

Agricultural Subsidies & Air Pollution

IMPACT OF Agricultural Subsidies ON Air Pollution 

What is the issue? 

 Our current system of subsidies is a big reason for air pollution.

 So, some changes could be made in the subsidies of the power, fertilizer and procurement fronts.

What is the situation? 

 People in Delhi and Indo-Gangetic Plain are choking due to air pollution.

 As winter dawns, the wind slows, temperatures drop, and suspended particulate matter (PM) accumulates.

 The high pollution in Delhi and its surrounding is due to the congested traffic, dust, construction, waste

burning, etc,

 It gets a top-up from paddy-stubble burning in Punjab, Haryana and Western Uttar Pradesh.

What contributes to air pollution? 

 Agriculture’s contribution to air pollution runs even deeper than what happens between crop seasons.

 Atmospheric ammonia comes from fertiliser use, animal husbandry, and other agricultural practices.

 This combined with emissions from power plants, transportation, and other fossil fuel burning form fine

particles.

 Agriculture is a victim of pollution as well as a perpetrator.

 Particulate matter and ground-level ozone (from industrial, power plant, and transportation emissions among others) cause losses in crop yields.

 Ozone damages plant cells, handicapping photosynthesis, while particulate matter dims the sunlight that

reaches crops.

What is the irony? 

 The irony of agricultural pollution is that taxpayers are essentially paying for it through a system of subsidies.

 These subsidies motivate the very behaviors that drive the agricultural emissions that the taxpayers breathe.

How does subsidy contribute to air pollution? 

 Free power - hence ―free‖ water, pumped from the ground - is a big part of what makes growing rice in these areas attractive.

 Open-ended procurement of paddy, in spite of bulging stocks of grains with the Food Corporation of

India, adds to the incentives.

 Subsidies account for almost 15% of the value of rice being produced in Punjab-Haryana belt.

 Fertiliser, particularly urea in granular form, is highly subsidised.

 Urea is one of the cheapest forms of nitrogen-based fertiliser, but it is also one of the first to release ammonia

into the air.

 This loss of nitrogen leads to a cycle of more and more fertiliser being applied to get the intended benefits for

crops.

What could be done? 

 An important element to correct in the policy matrix is the policy of subsidies on power, fertilisers and

procurement.

 The nature of support to farmers should be shifted from input subsidies to investment subsidies.

 A diversification package, equally contributed by the Centre and states, may be done to reduce agricultural

pollution.

 The approach to diversification has to be demand-led, with a holistic framework of value chain, and not just

focused on production.

 On the fertiliser front, instead of massive subsidisation of urea, the farmers could be given an input subsidy

in cash on per hectare basis.

 Government procurement of paddy from farmers burning stubble in their fields may also be restricted.

 Taken together, these measures could double farmers‘ incomes, promote efficiency in resource use, and reduce

pollution.

 Released norms on NOx Emissions 

 NOx or Oxides of nitrogen are a criteria pollutant emitted on burning coal.

 NOx is harmful, it also triggers the formation of ground level ozone and leads to secondary particulate matter worsening health risks and needs to be controlled.

 Coal-based power plants, besides the transport sector, are a major source of this pollutant.

 There were no limits placed to control emissions of NOx from power plants before 2015.

 The MoEF&CC introduced limits of 300 mg / Nm3.

 Recently Union Ministry of Environment, Forest and Climate Change (MoEF&CC) has relaxed NOx emission

norms.

 It has been relaxed to 450 mg / Nm3, from 300 mg / Nm3, for power stations commissioned between 2003

and 2015.

 The relaxations were brought about as the power sector strongly lobbied watering down the norms, alleging it was not possible to meet the 300 mg / Nm3 standard at all loads.

 Boiler companies assured government that a NOx emission level of 450 mg / Nm3 can be achieved by combustion modification.

 To meet emissions below it would mean installation of slightly expensive pollution control equipment like

selective non-catalytic reactors (SNCR) will be required.

Human Emissions of Nitrous Oxide 

 According to recent findings Human emissions of

nitrous oxide (N2O) increased by 30 per cent between

1980 and 2016.

 Its global concentration levels increased from 270 parts

per billion (ppb) in 1750 to 331 ppb in 2018, a jump of

20 per cent.

 The growth has been the quickest in the past five

decades because of human emissions.

 It has also found that a major proportion of the N2O

emissions in the last four decades came from the

agricultural sector, mainly because of the use nitrogen-

based fertilisers.

 Most N2O emissions have come from emergin

World’s First ‘Energy Island’ to be built by Denmark

World’s First ‘Energy Island

 Denmark, the nation that built the world’s first offshore wind farm, has agreed to an ambitious plan for another global first – an energy island in the North Sea which could eventually be capable of supplying energy to a history-making 10 million homes. The move will create a critical boost to the world’s offshore wind capacity.

The first hub and spoke  scheme will involve building an island 80 kilometres off the Danish coastline to act as the transmission centre for hundreds of wind turbines surrounding it. It is the largest construction project of Danish which is around $34billon

The project is also a potential blueprint for other coastal nations to develop their own green energy sources. “It’s in Danish waters, yes, but it could conceptually be in any other country."

Energy hub for the world

The initial phase for the artificial island is around the size of 18 soccer pitches. Initially, the North Sea hub will be capable of producing 3 gigawatts of electricity, but the plan is to scale up to 10 gigawatts, which is nearly one-and-a-half times Denmark’s current needs.

As well as supplying other European countries with electricity, the goal is to use the new offshore island to produce green hydrogen from seawater, which can also be exported. Large batteries on the island will store surplus electricity for use when demand is high.

Although the Danish government will own a majority stake, private companies will be invited to join a public/private partnership to build the project. Power will be supplied by as many as 600 giant wind turbines, each standing up to 260 metres tall.

DENMARK‟S ARTIFICIAL ENERGY ISLAND PROJECT. IMPORTANT POINTS

 

◾️ The Danish government approved a plan to build an artificial island in the North Sea as part of its effort to switch to green energy.

◾️An energy island is based on a platform that serves as a hub for electricity generation from surrounding offshore wind farms.

 ◾️The artificial island will be located about 80 km into the North Sea and the majority of it will be owned by the Danish government.