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Sustainable rice breeding Stock Photos and Images
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RM2JF6G1G–Rice paddies in Batutumonga, Lempo, North Toraja, South Sulawesi, Indonesia. Higher temperatures caused by global warming are projected to reduce rice crop yields in Indonesia. Changes in El Nino patterns, that impact the onset and length of the wet season, are also sending agricultural production to a vulnerable status. Developing new, or improved local rice varieties that more resilient—echoing recent studies in other countries—could be one of the keys to mitigate.
RF2F7GEEX–Rice terraces fields lush green and yellow, harvest ripe, rice on hill, slope, mountain, mountain village, farmers, rice farmers in Asia, beauty panor
RM2JF6FR4–Rice paddies in Batutumonga, Lempo, North Toraja, South Sulawesi, Indonesia. Higher temperatures caused by global warming are projected to reduce rice crop yields in Indonesia. Changes in El Nino patterns, that impact the onset and length of the wet season, are also sending agricultural production to a vulnerable status. Developing new, or improved local rice varieties that more resilient--echoing recent studies in other countries--could be one of the keys to mitigate.
RM2JF6FHD–Rice paddies in Batutumonga, Lempo, North Toraja, South Sulawesi, Indonesia. Higher temperatures caused by global warming are projected to reduce rice crop yields in Indonesia. Changes in El Nino patterns, that impact the onset and length of the wet season, are also sending agricultural production to a vulnerable status. Developing new, or improved local rice varieties that more resilient--echoing recent studies in other countries--could be one of the keys to mitigate.
RM2JF6FFP–Rice paddies near Batutumonga, Lempo, North Toraja, South Sulawesi, Indonesia. Higher temperatures caused by global warming are projected to reduce rice crop yields in Indonesia. Changes in El Nino patterns, that impact the onset and length of the wet season, are also sending agricultural production to a vulnerable status. Developing new, or improved local rice varieties that more resilient—echoing recent studies in other countries—could be one of the keys to mitigate.
RM2JF6FH1–Rice paddies in Batutumonga, Lempo, North Toraja, South Sulawesi, Indonesia. Higher temperatures caused by global warming are projected to reduce rice crop yields in Indonesia. Changes in El Nino patterns, that impact the onset and length of the wet season, are also sending agricultural production to a vulnerable status. Developing new, or improved local rice varieties that more resilient—echoing recent studies in other countries—could be one of the keys to mitigate.
RM2JF6FT3–Rice paddies in Batutumonga, Lempo, North Toraja, South Sulawesi, Indonesia. Higher temperatures caused by global warming are projected to reduce rice crop yields in Indonesia. Changes in El Nino patterns, that impact the onset and length of the wet season, are also sending agricultural production to a vulnerable status. Developing new, or improved local rice varieties that more resilient—echoing recent studies in other countries—could be one of the keys to mitigate.
RM2JF6FXY–Rice paddies in Batutumonga, Lempo, North Toraja, South Sulawesi, Indonesia. Higher temperatures caused by global warming are projected to reduce rice crop yields in Indonesia. Changes in El Nino patterns, that impact the onset and length of the wet season, are also sending agricultural production to a vulnerable status. Developing new, or improved local rice varieties that more resilient--echoing recent studies in other countries--could be one of the keys to mitigate.
RM2JF6G0M–Rice paddies in Batutumonga, Lempo, North Toraja, South Sulawesi, Indonesia. Higher temperatures caused by global warming are projected to reduce rice crop yields in Indonesia. Changes in El Nino patterns, that impact the onset and length of the wet season, are also sending agricultural production to a vulnerable status. Developing new, or improved local rice varieties that more resilient—echoing recent studies in other countries—could be one of the keys to mitigate.
RM2JF6G0C–Rice paddies in Batutumonga, Lempo, North Toraja, South Sulawesi, Indonesia. Higher temperatures caused by global warming are projected to reduce rice crop yields in Indonesia. Changes in El Nino patterns, that impact the onset and length of the wet season, are also sending agricultural production to a vulnerable status. Developing new, or improved local rice varieties that more resilient--echoing recent studies in other countries--could be one of the keys to mitigate.
RM2JF6FNP–Rice paddies in Batutumonga, Lempo, North Toraja, South Sulawesi, Indonesia. Higher temperatures caused by global warming are projected to reduce rice crop yields in Indonesia. Changes in El Nino patterns, that impact the onset and length of the wet season, are also sending agricultural production to a vulnerable status. Developing new, or improved local rice varieties that more resilient--echoing recent studies in other countries--could be one of the keys to mitigate.
RM2JF6G26–Rice paddies on a dry day in October near Bambalu, Tana Toraja, South Sulawesi, Indonesia. Higher temperatures caused by global warming are projected to reduce rice crop yields in Indonesia. Changes in El Nino patterns, that impact the onset and length of the wet season, are also sending agricultural production to a vulnerable status. Developing new, or improved local rice varieties that more resilient--echoing recent studies in other countries--could be one of the keys to mitigate.
RM2JF6G1M–Rice paddies on a dry day in October near Bambalu, Tana Toraja, South Sulawesi, Indonesia. Higher temperatures caused by global warming are projected to reduce rice crop yields in Indonesia. Changes in El Nino patterns, that impact the onset and length of the wet season, are also sending agricultural production to a vulnerable status. Developing new, or improved local rice varieties that more resilient--echoing recent studies in other countries--could be one of the keys to mitigate.
RM2G5JDK4–Rice paddies in Rantetayo, Tana Toraja, South Sulawesi, Indonesia. Higher temperatures caused by global warming are projected to reduce rice crop yields in Indonesia. Changes in El Nino patterns, that impact the onset and length of the wet season, are also sending agricultural production to a vulnerable status. Developing new, or improved local rice varieties that more resilient--echoing recent studies in other countries--could be one of the keys to mitigate.
RM2G5JC47–Rice paddies between Rantetayo and Kurra, Tana Toraja, South Sulawesi, Indonesia. Higher temperatures caused by global warming are projected to reduce rice crop yields in Indonesia. Changes in El Nino patterns, that impact the onset and length of the wet season, are also sending agricultural production to a vulnerable status. Developing new, or improved local rice varieties that more resilient--echoing recent studies in other countries--could be one of the keys to mitigate.
RM2G5JCHH–Rice paddies in Batutumonga, Lempo, North Toraja, South Sulawesi, Indonesia. Higher temperatures caused by global warming are projected to reduce rice crop yields in Indonesia. Changes in El Nino patterns, that impact the onset and length of the wet season, are also sending agricultural production to a vulnerable status. Developing new, or improved local rice varieties that more resilient--echoing recent studies in other countries--could be one of the keys to mitigate.
RM2G5JCRD–Rice paddies in Batutumonga, Lempo, North Toraja, South Sulawesi, Indonesia. Higher temperatures caused by global warming are projected to reduce rice crop yields in Indonesia. Changes in El Nino patterns, that impact the onset and length of the wet season, are also sending agricultural production to a vulnerable status. Developing new, or improved local rice varieties that more resilient--echoing recent studies in other countries--could be one of the keys to mitigate.
RM2G5JCCD–Rice paddies in Batutumonga, Lempo, North Toraja, South Sulawesi, Indonesia. Higher temperatures caused by global warming are projected to reduce rice crop yields in Indonesia. Changes in El Nino patterns, that impact the onset and length of the wet season, are also sending agricultural production to a vulnerable status. Developing new, or improved local rice varieties that more resilient--echoing recent studies in other countries--could be one of the keys to mitigate.
RM2G5JD6W–Rice paddies on a dry day in October in Kurra, Tana Toraja, South Sulawesi, Indonesia. Higher temperatures caused by global warming are projected to reduce rice crop yields in Indonesia. Changes in El Nino patterns, that impact the onset and length of the wet season, are also sending agricultural production to a vulnerable status. Developing new, or improved local rice varieties that more resilient--echoing recent studies in other countries--could be one of the keys to mitigate.
RM2G5JDC2–People walking on the embankment of rice paddies on a dry day in October near Bambalu, Tana Toraja, South Sulawesi, Indonesia. Higher temperatures caused by global warming are projected to reduce rice crop yields in Indonesia. Changes in El Nino patterns, that impact the onset and length of the wet season, are also sending agricultural production to a vulnerable status. Developing new, or improved local rice varieties that more resilient--echoing recent studies in other countries--could be one of the keys to mitigate.
RM2G5C6BM–Rice terraces in Piongan village, North Toraja, South Sulawesi, Indonesia. Higher temperatures caused by global warming are projected to reduce rice crop yields in Indonesia. Changes in El Nino patterns, that impact the onset and length of the wet season, are also sending agricultural production to a vulnerable status. Developing new, or improved local rice varieties that more resilient--echoing recent studies in other countries--could be one of the keys to mitigate.
RM2G5BD8C–Rice terraces in Batutumonga, Lempo, North Toraja, South Sulawesi, Indonesia. Higher temperatures caused by global warming are projected to reduce rice crop yields in Indonesia. Changes in El Nino patterns, that impact the onset and length of the wet season, are also sending agricultural production to a vulnerable status. Developing new, or improved local rice varieties that more resilient--echoing recent studies in other countries--could be one of the keys to mitigate.
RM2G5C2P8–Rice terraces in Batutumonga, Lempo, North Toraja, South Sulawesi, Indonesia. Higher temperatures caused by global warming are projected to reduce rice crop yields in Indonesia. Changes in El Nino patterns, that impact the onset and length of the wet season, are also sending agricultural production to a vulnerable status. Developing new, or improved local rice varieties that more resilient--echoing recent studies in other countries--could be one of the keys to mitigate.
RM2G5C4HT–Rice terraces on a dry day in October near Bambalu, Tana Toraja, South Sulawesi, Indonesia. Higher temperatures caused by global warming are projected to reduce rice crop yields in Indonesia. Changes in El Nino patterns, that impact the onset and length of the wet season, are also sending agricultural production to a vulnerable status. Developing new, or improved local rice varieties that more resilient--echoing recent studies in other countries--could be one of the keys to mitigate.
RM2G5C774–Rice terraces on a dry day in October near Bambalu, Tana Toraja, South Sulawesi, Indonesia. Higher temperatures caused by global warming are projected to reduce rice crop yields in Indonesia. Changes in El Nino patterns, that impact the onset and length of the wet season, are also sending agricultural production to a vulnerable status. Developing new, or improved local rice varieties that more resilient--echoing recent studies in other countries--could be one of the keys to mitigate.
RM2G5JD32–Rice terraces in Piongan village, North Toraja, South Sulawesi, Indonesia. Higher temperatures caused by global warming are projected to reduce rice crop yields in Indonesia. Changes in El Nino patterns, that impact the onset and length of the wet season, are also sending agricultural production to a vulnerable status. Developing new, or improved local rice varieties that more resilient--echoing recent studies in other countries--could be one of the keys to mitigate.
RM2G5C3J1–A rice farmer carrying bunches of young rice plants, walking on embankment through rice fields on a bright day, near Kurra, Tana Toraja, South Sulawesi, Indonesia. Higher temperatures caused by global warming are projected to reduce rice crop yields in Indonesia. Changes in El Nino patterns, that impact the onset and length of the wet season, are also sending agricultural production to a vulnerable status. Developing new, or improved local rice varieties that more resilient--echoing recent studies in other countries--could be one of the keys to mitigate.
RM2G5C360–A rice farmer carrying bunches of young rice plants, walking on embankment through rice fields on a bright day, near Kurra, Tana Toraja, South Sulawesi, Indonesia. Higher temperatures caused by global warming are projected to reduce rice crop yields in Indonesia. Changes in El Nino patterns, that impact the onset and length of the wet season, are also sending agricultural production to a vulnerable status. Developing new, or improved local rice varieties that more resilient--echoing recent studies in other countries--could be one of the keys to mitigate.
RM2G5C49D–A rice farmer carrying bunches of young rice plants, walking on embankment through rice fields on a bright day, near Kurra, Tana Toraja, South Sulawesi, Indonesia. Higher temperatures caused by global warming are projected to reduce rice crop yields in Indonesia. Changes in El Nino patterns, that impact the onset and length of the wet season, are also sending agricultural production to a vulnerable status. Developing new, or improved local rice varieties that more resilient--echoing recent studies in other countries--could be one of the keys to mitigate.
RM2G5C2YY–A rice farmer carrying bunches of young rice plants, walking on embankment through rice fields on a bright day, near Kurra, Tana Toraja, South Sulawesi, Indonesia. Higher temperatures caused by global warming are projected to reduce rice crop yields in Indonesia. Changes in El Nino patterns, that impact the onset and length of the wet season, are also sending agricultural production to a vulnerable status. Developing new, or improved local rice varieties that more resilient--echoing recent studies in other countries--could be one of the keys to mitigate.
RMEYW34E–Rice terraces on a dry day in October near Bambalu, Tana Toraja, South Sulawesi, Indonesia.
RM2G5C6YP–A rice farmer carrying bunches of young rice plants, walking on embankment through rice fields on a bright day, near Kurra, Tana Toraja, South Sulawesi, Indonesia. Higher temperatures caused by global warming are projected to reduce rice crop yields in Indonesia. Changes in El Nino patterns, that impact the onset and length of the wet season, are also sending agricultural production to a vulnerable status. Developing new, or improved local rice varieties that more resilient--echoing recent studies in other countries--could be one of the keys to mitigate.
RM2G5C6MM–A rice farmer carrying bunches of young rice plants, walking on embankment through rice fields on a bright day, near Kurra, Tana Toraja, South Sulawesi, Indonesia. Higher temperatures caused by global warming are projected to reduce rice crop yields in Indonesia. Changes in El Nino patterns, that impact the onset and length of the wet season, are also sending agricultural production to a vulnerable status. Developing new, or improved local rice varieties that more resilient--echoing recent studies in other countries--could be one of the keys to mitigate.
Search Results for Sustainable rice breeding Stock Photos and Images (34)
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