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Marginal Land (marginal + land)

Distribution by Scientific Domains

Life Sciences	66%

Selected Abstracts

Marginal Land-based Biomass Energy Production in China

JOURNAL OF INTEGRATIVE PLANT BIOLOGY, Issue 1 2010
Ya Tang
Fast economic development in China has resulted in a significant increase in energy demand. Coal accounts for 70% of China's primary energy consumption and its combustion has caused many environmental and health problems. Energy security and environmental protection requirements are the main drivers for renewable energy development in China. Small farmland and food security make bioenergy derived from corn or sugarcane unacceptable to China: the focus should be on generating bioenergy from ligno-cellulosic feedstock sources. As China cannot afford biomass energy production from its croplands, marginal lands may play an important role in biomass energy production. Although on a small scale, marginal land has already been used for various purposes. It is estimated that some 45 million hm2 of marginal land could be brought into high potential biomass energy production. For the success of such an initiative, it will likely be necessary to develop multipurpose plants. A case study, carried out on marginal land in Ningnan County, Sichuan Province with per capita cropland of 0.07 ha, indicated that some 380 000 tons of dry biomass could be produced each year from annual pruning of mulberry trees. This study supports the feasibility of producing large quantities of biomass from marginal land sources. [source]

1.,The Role of Land Markets in Economic Crises

AMERICAN JOURNAL OF ECONOMICS AND SOCIOLOGY, Issue 4 2009
Mason Gaffney
It is widely recognized that the economic crisis of 2009 was caused by unsound lending for real estate. Largely ignored, however, is that this contraction was easily predicted on the basis of a well-established pattern of land speculation, premature subdivision, and excessive building on marginal land that recurs approximately once every 18 years. Capital locked up in projects that are started during a land bubble is effectively lost during the downturn, leaving the nation without sufficient capital to finance ordinary business operations during the recovery period. The best instrument for avoiding this boom-bust cycle is the property tax and, more specifically, the portion that falls on land. We explore here the ways in which the property tax influences the intensity, timing, and location of development. We also examine why frequent and accurate assessment are essential to make the property tax an effective method of preventing speculative real estate bubbles. [source]

Rapid analysis of Jatropha curcas gene functions by virus-induced gene silencing

PLANT BIOTECHNOLOGY JOURNAL, Issue 9 2009
Jian Ye
Summary Jatropha curcas L. is a small, woody tree of the Euphorbiaceae family. This plant can grow on marginal land in the tropical and subtropical regions and produces seeds containing up to 30% oil. Several Asian countries have selected Jatropha for large scale planting as a biodiesel feedstock. Nevertheless, Jatropha also possesses several undesirable traits that may limit its wide adoption. An improved understanding of plant development and the regulation of fatty acid (FA) and triacylglyceride biosynthesis in Jatropha is particularly facilitative for the development of elite crops. Here, we show that a tobacco rattle virus (TRV) vector can trigger virus-induced gene silencing (VIGS) in Jatropha. Our optimized method produced robust and reliable gene silencing in plants agroinoculated with recombinant TRV harbouring Jatropha gene sequences. We used VIGS to investigate possible functions of 13 Jatropha genes of several functional categories, including FA biosynthesis, developmental regulation and toxin biosynthesis, etc. Based on the effects of VIGS on the FA composition of newly emerged leaves, we determined the function of several genes implicated in FA biosynthesis. Moreover, VIGS was able to discriminate independent functions of related gene family members. Our results show that VIGS can be used for high-throughput screening of Jatropha genes whose functions can be assayed in leaves. [source]

Marginal Land-based Biomass Energy Production in China

A concept for simultaneous wasteland reclamation, fuel production, and socio-economic development in degraded areas in India: Need, potential and perspectives of Jatropha plantations

NATURAL RESOURCES FORUM, Issue 1 2005
George Francis
Abstract The concept of substituting bio-diesel produced from plantations on eroded soils for conventional diesel fuel has gained wide-spread attention in India. In recent months, the Indian central Government as well as some state governments have expressed their support for bringing marginal lands, which cannot be used for food production, under cultivation for this purpose. Jatropha curcas is a well established plant in India. It produces oil-rich seeds, is known to thrive on eroded lands, and to require only limited amounts of water, nutrients and capital inputs. This plant offers the option both to cultivate wastelands and to produce vegetable oil suitable for conversion to bio-diesel. More versatile than hydrogen and new propulsion systems such as fuel cell technology, bio-diesel can be used in today's vehicle fleets worldwide and may also offer a viable path to sustainable transportation, i.e., lower greenhouse gas emissions and enhanced mobility, even in remote areas. Mitigation of global warming and the creation of new regional employment opportunities can be important cornerstones of any forward looking transportation system for emerging economies. [source]