Over the last two decades, the Earth has seen an increase in foliage around the planet, measured in average leaf area per year on plants and trees. Data from NASA satellites shows that China and India are leading the increase in greening on land. The effect stems mainly from ambitious tree planting programs in China and intensive agriculture in both countries. Credits: NASA Earth Observatory The world is literally a greener place than it was 20 years ago, and data from NASA satellites has revealed a counterintuitive source for much of this new foliage: China and India. A new study shows that the two emerging countries with the world’s biggest populations are leading the increase in greening on land. The effect stems mainly from ambitious tree planting programs in China and intensive agriculture in both countries. The greening phenomenon was first detected using satellite data in the mid-1990s by Ranga Myneni of Boston University and colleagues, but they did not know whether human activity was one of its chief, direct causes. This new insight was made possible by a nearly 20-year-long data record from a NASA instrument orbiting the Earth on two satellites. It’s called the Moderate Resolution Imaging Spectroradiometer, or MODIS, and its high-resolution data provides very accurate information, helping researchers work out details of what’s happening with Earth’s vegetation, down to the level of 500 meters, or about 1,600 feet, on the ground. Taken all together, the greening of the planet over the last two decades represents an increase in leaf area on plants and trees equivalent to the area covered by all the Amazon rainforests. There are now more than two million square miles of extra green leaf area per year, compared to the early 2000s – a 5% increase. “China and India account for one-third of the greening, but contain only 9% of the planet’s land area covered in vegetation – a surprising finding, considering the general notion of land degradation in populous countries from overexploitation,” said Chi Chen of the Department of Earth and Environment at Boston University, in Massachusetts, and lead author of the study. An advantage of the MODIS satellite sensor is the intensive coverage it provides, both in space and time: MODIS has captured as many as four shots of every place on Earth, every day for the last 20 years. “This long-term data lets us dig deeper,” said Rama Nemani, a research scientist at NASA’s Ames Research Center, in California’s Silicon Valley, and a co-author of the new work. “When the greening of the Earth was first observed, we thought it was due to a warmer, wetter climate and fertilization from the added carbon dioxide in the atmosphere, leading to more leaf growth in northern forests, for instance. Now, with the MODIS data that lets us understand the phenomenon at really small scales, we see that humans are also contributing.” China’s outsized contribution to the global greening trend comes in large part (42%) from programs to conserve and expand forests. These were developed in an effort to reduce the effects of soil erosion, air pollution and climate change. Another 32% there – and 82% of the greening seen in India – comes from intensive cultivation of food crops. Land area used to grow crops is comparable in China and India – more than 770,000 square miles – and has not changed much since the early 2000s. Yet these regions have greatly increased both their annual total green leaf area and their food production. This was achieved through multiple cropping practices, where a field is replanted to produce another harvest several times a year. Production of grains, vegetables, fruits and more have increased by about 35-40% since 2000 to feed their large populations. How the greening trend may change in the future depends on numerous factors, both on a global scale and the local human level. For example, increased food production in India is facilitated by groundwater irrigation. If the groundwater is depleted, this trend may change. “But, now that we know direct human influence is a key driver of the greening Earth, we need to factor this into our climate models,” Nemani said. “This will help scientists make better predictions about the behavior of different Earth systems, which will help countries make better decisions about how and when to take action.” The researchers point out that the gain in greenness seen around the world and dominated by India and China does not offset the damage from loss of natural vegetation in tropical regions, such as Brazil and Indonesia. The consequences for sustainability and biodiversity in those ecosystems remain. Overall, Nemani sees a positive message in the new findings. “Once people realize there’s a problem, they tend to fix it,” he said. “In the 70s and 80s in India and China, the situation around vegetation loss wasn’t good; in the 90s, people realized it; and today things have improved. Humans are incredibly resilient. That’s what we see in the satellite data.” This research was published online, Feb. 11, 2019, in the journal Nature Sustainability. For news media: Members of the news media interested in covering this topic should get in touch with the science representative on the NASA Ames media contacts page. Author: Abby Tabor, NASA's Ames Research Center, Silicon Valley Last Updated: Feb. 12, 2019 Editor: Abigail Tabor

AHRC-funded Collaborative PhD Studentship with the University of Exeter and BT Archives: The Cultures of Radio Research in India, circa. 1890-1947 (Ref: 2152) About the award: Applications are invited for an AHRC-funded Collaborative PhD Studentship with the University of Exeter and BT Archives to research and study the history of wireless and radio research in India from the late nineteenth century to independence. The project seeks to challenge assumptions that the development of radio science and technology in India during this period was lacklustre. A common claim is that systematic radio science did not really start until the foundation of the Council of Scientific and Industrial Research of India's Radio Research Board in 1942. However, recent studies have suggested that a culture of overland and undersea cable research was established in India by 1900 and that radio research flourished in Britain and its dominions of Canada, New Zealand and Australia. While the existence of radio research in India before 1947 has been acknowledged in the historiography, it has never been the subject of systematic historical analysis. This project aims to plug this significant gap in the literature and advance current understanding of the larger questions of research and development in the British empire before the Second World War, and the relationships between imperialism and telecommunications. It focuses on the following questions: 1. Where and how was radio research and development (R&D) pursued in India? Was it confined to academic, commercial, government and military organisations, or were there less formal research cultures elsewhere such as in amateur radio clubs? 2. What did radio R&D in India achieve? How did it improve communication technologies and transform understanding of the ionosphere? Why did some projects succeed and others fail? 3. Why was radio R&D in India pursued and how did particular centres develop? To what extent did such centres depend on international movements - e.g. of Indian-born scientists and engineers training overseas and British-born scientific practitioners hired to work in India? 4. To what extent was radio R&D in India shaped by issues relating to culture, society and politics at local and national levels? 5. How far was radio R&D in India hampered by financial, ideological and other 'non-technical' constraints that we know seriously affected the Government of India, Marconi Wireless, Cable and Wireless and other relevant organisations? 6. To what extent did radio R&D in India follow the models developed in Britain and colonies such as Australia, Canada and New Zealand? Were there complex and often difficult relationships between the academic, government and commercial sponsors of this kind of R&D? The project will involve the close and systematic analysis of a wealth of under-researched primary source materials, and a critical study of the extensive secondary literature in the fields of the history of science and technology, the history of India, and global and imperial history. By far the largest amount of primary research material for this project is located in Britain and was primarily written and/or published in English. However, it is anticipated that the successful applicant may need to make at least one trip to India to study material in repositories there. The principal research collections are in the British Library, BT Archives, University of Exeter, Porthcurno Telegraph Museum (Cornwall), Bodleian Library (Oxford), Calcutta University Library, Indian Institute of the Sciences (Bangalore) and All India Radio Archives (Mumbai). The successful applicant will be spending a considerable amount of time in BT Archives where they will be studying some of the collection’s underexplored and uncatalogued materials and gaining experience of professional archive management and public engagement activities associated with BT Archives and the Science Museum. They will also be expected to present aspects of their research in workshops, seminars and conferences organised by the University of Exeter and by BT Archives. The project supervisors are Dr Richard Noakes (University of Exeter), Dr Gajendra Singh (University of Exeter) and Mr. David Hay (BT Archives, London). The successful applicant will also receive support from Dr. Alison Hess (Science Museum, London). Summary: Application deadline: 29th April 2016 Number of awards: 1 Value: £14,057 plus UK/EU tuition fees for eligible students Duration of award: per year Contact: Dr Matt Barber, Graduate School Administrator at humanities-pgadmissions@exeter.ac.uk HOW TO APPLY Entry criteria: We invite applications from candidates with a strong academic background in modern history, preferably the history of modern science and/or technology. Successful applicants should normally have a good first degree (at least 2.1, or international equivalent) in a relevant field of humanities, and have obtained, or are currently working towards a Masters degree at Merit level, or international equivalent, in modern history, preferably the history of modern science and/or technology. If English is not your native language, you will also need to satisfy the English language entry requirements of the University of Exeter. Please note that the award is subject to the AHRC’s terms as laid out in the Training Grant Funding Guide 2015-16, to which applicants should refer before applying. Please also note that International fee paying students are not eligible for AHRC awards and EU students need to assess whether they are eligible for fees and maintenance or fees only by reviewing the eligiblity criteria set out in the Conditions of Research Council Training Grants. To apply: You will need to complete an online web form and upload a full CV, a covering letter outlining your academic interests, any prior research experience and your reasons for wishing to undertake this research project, a sample of recent work, details of two referees and, if relevant, proof of English language proficiency, by 29 April 2016. Please ensure that two referees either email their reference to you for uploading to the system or, if they prefer, directly email their references to the Postgraduate Administrator at humanities-pgadmissions@exeter.ac.uk by 29 April 2016. Please note that we will not be contacting referees to request references, you must arrange for them to be submitted to us by the deadline. The responsibility for ensuring that references are received by the deadline rests with the candidates. Referees must email their references to us from their institutional email accounts (references sent from personal/private email accounts will not be accepted unless in the form of a scanned document on institutional headed paper and signed by the referee). More information: If you have any queries or would like to discuss this opportunity before applying, please contact Dr. Richard Noakes at r.j.noakes@exeter.ac.uk. If you have any queries regarding the application process please contact: Postgraduate Administrator at: humanities-pgadmissions@exeter.ac.uk College of Humanities Graduate School, University of Exeter Queen's Building, The Queen's Drive Exeter, Devon, EX4 4QH