BY SAMUEL NABWIISO
Rice is
a staple for more than 3.5 billion people,
including most of the world’s poor. But it can be a problematic crop to farm.
It requires massive amounts of water and the paddies in which it grows emit
methane, a potent greenhouse gas.
To
tackle such issues, the United Nations Environment Programme (UNEP) has been
working with the Shanghai
Agrobiological Gene Center to develop strains of rice that are
drought resistant and don’t need to be planted in paddies. The research, say,
experts, could help bolster food security at a time when COVID-19 is
threatening to propel more people into hunger.
The
study, which runs from 2017 to 2021, is funded by the Government of China and
falls under the China-Africa South-South Cooperation
arrangement.
“China
has lots of experience growing rice and this collaboration with China is a
first,” says UNEP ecosystems expert Levis Kavagi, who has been closely involved
with the project.
Researchers
have developed and tested over 50 varieties of rice in Ghana, Kenya and Uganda.
They evaluated how the grains grow at different elevations and, importantly,
how they taste.
One strain,
dubbed WDR 73 by scientists, proved particularly promising. During trials in
Uganda, researchers found that it helped boost yields by about 30 per cent
compared to locally grown varieties.
WDR 73
also doesn’t need to be planted in a flooded paddy. That’s important for
several reasons.
Transporting
seedlings into flooded fields is a laborious process. Paddies are breeding
grounds for malaria-carrying mosquitoes. Water shortages, sparked by climate
change, are expected to make filling paddies a challenge in many countries. And
paddies themselves vent massive amounts of methane – up to 20 per cent of
human-related emissions of the greenhouse gas, according to the Intergovernmental
Panel on Climate Change.
Growing
rice on relatively dry land also reduces the ever-growing quest to open up
wetlands, havens for birds and other animals, to farming.
“Usually
the most suitable land for growing rice also tends to be next to, or in,
wetlands or flood plains,” says Kavagi. “Expanding agricultural land involves
draining the wetlands. This leads to loss of biodiversity, and reduced water
purification and climate regulation services provided by wetlands.”
The
ultimate goal of the project is to get a national certification of WDR 73,
allowing it to be broadly disseminated to farmers. The project is part of a
larger effort by China, African countries and UNEP to develop better rice
varieties, improve livelihoods and bolster food security.
"The
project shows that with new rice varieties it is possible to achieve the
multiple objectives of food security, biodiversity and nature conservation –
and fight against climate change,” says Kavagi.
Technical details of rice
trials in Ghana, Kenya and Uganda
In
Kenya, trials were conducted over three growing seasons in Mwea (central
Kenya), Busia (western), and Mtwapa (coastal area). Rice variety WDR 73
performed well compared with the local Basmati varieties. The growth duration
varied from 125 days in Mtwapa, to 150 days in Mwea and Busia, where the
altitude is over 1,000m. Average grain yield was 5.1 to 9.0 tonnes per hectare.
Plant height was 100-110 cm, which shows that this variety is tolerant to rice blast
disease and displays good drought-resistant qualities compared
to Basmati varieties.
In
Uganda, WDR73 cultivation experiments were conducted in Lukaya, Luweero and
Arua. In well-managed farms, grain yield increased from 4.35 to more than 6.0
tons per hectare. In Arua, in 2019 the rain-fed crop was direct sowed from
25-30 August and harvested from 30 November to 5 December. The growth duration
was 90-95 days and yielded 4.35 tonnes per hectare. Direct seeded WDR 73 grain
yield in Luweero in 2019 varied from 6 tonnes per hectare in rain-fed
conditions to 8 tonnes per hectare in irrigated paddy fields.
In
Bolgatanga, a drought-prone area in northern Ghana, WDR 73 growth duration was
105 days and plant height 110-120 cm, while the grain yield was 6.0 tonnes per
hectare.
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