RM2JEPBK6–A voluntary conservation worker measuring the length of a green sea turtle (Chelonia mydas) after it lay its eggs on Sangalaki Island, an island dedicated to sea turtle conservation and a part of of Berau Marine Protected Area within Derawan archipelago in Berau, East Kalimantan, Indonesia.
RM2JEPBK4–A voluntary conservation worker calming a green sea turtle (Chelonia mydas) before measuring its length, after it lay its eggs at night on Sangalaki Island, an island dedicated to sea turtle conservation and a part of of Berau Marine Protected Area within Derawan archipelago in Berau, East Kalimantan, Indonesia.
RM2JEPBKN–A green sea turtle (Chelonia mydas) crawling on the beach, heading back to the sea after laying its eggs at night on Sangalaki Island, an island dedicated to sea turtle conservation and a part of of Berau Marine Protected Area within Derawan archipelago in Berau, East Kalimantan, Indonesia.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
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.
RM2JDKHE4–A komodo dragon (Varanus komodoensis) in Rinca Island, a part of Komodo National Park in West Manggarai, East Nusa Tenggara, Indonesia. The world's largest lizard, komodo dragons reach a body mass up to 90 kg and a length of 3 meters, according to a team of scientists led by Brandon S. Boyd in their paper published in 2021 by Foot & Ankle Orthopaedics. Because of their large size, these lizards feed on prey that equal or exceed their own mass.
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.
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.
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.
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.
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.
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.
RM2FWXHYE–Rice plants on a rice field in Gede Bage, Bandung, West Java, Indonesia. Global warming will cause a further, significant impacts on rice production if it's not well mitigated, according to a scientific document focusing on climate risks, which was recently released by The World Bank Group and Asian Development Bank. 'Rice is particularly sensitive to temperature changes,' the report said, while at the same time global changes in El Nino patterns--driven by climate change--are likely to impact the onset and length of the wet season.
RM2FWXHTK–Women farmers working on rice field in Bandung, West Java, Indonesia. Rice production is particularly vulnerable to climate change as global changes in El Nino patterns are likely to impact the onset and length of the wet season, according to a scientific document focusing on climate risks, which was recently released by The World Bank Group and Asian Development Bank. 'Higher temperatures are also projected to reduce rice crop yields. Alongside other impacts on agricultural production, Indonesia faces multiple threats to its food security,' the report said.
RM2FWXHYB–Women farmers working on rice field in Bandung, West Java, Indonesia. Global warming will cause a further, significant impacts on rice production if it's not well mitigated, according to a scientific document focusing on climate risks, which was recently released by The World Bank Group and Asian Development Bank. 'Rice is particularly sensitive to temperature changes,' the report said, while at the same time global changes in El Nino patterns--driven by climate change--are likely to impact the onset and length of the wet season.
RM2JDKHKD–A komodo dragon (Varanus komodoensis) walking on a beach in Komodo Island, a part of Komodo National Park in West Manggarai, East Nusa Tenggara, Indonesia. A carnivorous varanid lizard, the world's largest lizard, komodo dragons reach a body mass up to 90 kg and a length of 3 meters, according to a team of scientists led by Brandon S. Boyd in their paper published in 2021 by Foot & Ankle Orthopaedics. Because of their large size, these lizards feed on prey that equal or exceed their own mass.
RM2JDKHME–A komodo dragon (Varanus komodoensis) walking on a beach in Komodo Island, a part of Komodo National Park in West Manggarai, East Nusa Tenggara, Indonesia. A carnivorous varanid lizard, the world's largest lizard, komodo dragons reach a body mass up to 90 kg and a length of 3 meters, according to a team of scientists led by Brandon S. Boyd in their paper published in 2021 by Foot & Ankle Orthopaedics. Because of their large size, these lizards feed on prey that equal or exceed their own mass.
RM2JDKHJM–A komodo dragon (Varanus komodoensis) walking on a beach in Komodo Island, a part of Komodo National Park in West Manggarai, East Nusa Tenggara, Indonesia. A carnivorous varanid lizard, the world's largest lizard, komodo dragons reach a body mass up to 90 kg and a length of 3 meters, according to a team of scientists led by Brandon S. Boyd in their paper published in 2021 by Foot & Ankle Orthopaedics. Because of their large size, these lizards feed on prey that equal or exceed their own mass.
RM2JDKHN4–A komodo dragon (Varanus komodoensis) walking on a beach in Komodo Island, a part of Komodo National Park in West Manggarai, East Nusa Tenggara, Indonesia. A carnivorous varanid lizard, the world's largest lizard, komodo dragons reach a body mass up to 90 kg and a length of 3 meters, according to a team of scientists led by Brandon S. Boyd in their paper published in 2021 by Foot & Ankle Orthopaedics. Because of their large size, these lizards feed on prey that equal or exceed their own mass.
RM2JDKHHB–Skulls of water buffalo and other animals—the prey for komodo dragons (Varanus komodoensis)—are placed on the side of a trail in Rinca Island, a part of Komodo National Park in West Manggarai, East Nusa Tenggara, Indonesia. The world's largest lizard, komodo dragons reach a body mass up to 90 kg and a length of 3 meters, according to a team of scientists led by Brandon S. Boyd in their paper published in 2021 by Foot & Ankle Orthopaedics. Because of their large size, these lizards feed on prey that equal or exceed their own mass.
RM2JDKHEC–Skulls of water buffalo and other animals—the prey for komodo dragons (Varanus komodoensis)—are placed on the side of a trail in Rinca Island, a part of Komodo National Park in West Manggarai, East Nusa Tenggara, Indonesia. The world's largest lizard, komodo dragons reach a body mass up to 90 kg and a length of 3 meters, according to a team of scientists led by Brandon S. Boyd in their paper published in 2021 by Foot & Ankle Orthopaedics. Because of their large size, these lizards feed on prey that equal or exceed their own mass.
RM2JDKHEG–Skulls of water buffalo and other animals—the prey for komodo dragons (Varanus komodoensis)—are placed on the side of a trail in Rinca Island, a part of Komodo National Park in West Manggarai, East Nusa Tenggara, Indonesia. The world's largest lizard, komodo dragons reach a body mass up to 90 kg and a length of 3 meters, according to a team of scientists led by Brandon S. Boyd in their paper published in 2021 by Foot & Ankle Orthopaedics. Because of their large size, these lizards feed on prey that equal or exceed their own mass.
RMEG99P9–Man in Scottish highland dress watching sports during the 2005 Jakarta Highland Gathering in Karawaci, Banten, Indonesia.
Download Confirmation
Please complete the form below. The information provided will be included in your download confirmation