Open Access. Powered by Scholars. Published by Universities.®
Physical Sciences and Mathematics Commons™
Open Access. Powered by Scholars. Published by Universities.®
Articles 1 - 2 of 2
Full-Text Articles in Physical Sciences and Mathematics
Sustainability Analysis Of Domestic Rainwater Harvesting Systems For Current And Future Water Security In Rural Mexico, Elena E. Neibaur
Sustainability Analysis Of Domestic Rainwater Harvesting Systems For Current And Future Water Security In Rural Mexico, Elena E. Neibaur
FIU Electronic Theses and Dissertations
Rainwater harvesting, the act of capturing and storing rain, is an ancient practice that is increasingly utilized today by communities to address water supply needs. This thesis examines whether domestic rainwater harvesting systems (DRWHS) can be a sustainable solution as defined by social, water quality, and technical feasibility for water security in semi-arid, rural environments. For this study, 50 surveys and 17 stored rainwater analyses were conducted in San Jose Xacxamayo, Mexico, in conjunction with my Peace Corps work of implementing 82 DRWHS. Results showed that all DRWHS were socially feasible because of cultural acceptance and local capacity. Water quality …
Ecosystem Resistance In The Face Of Climate Change: A Case Study From The Freshwater Marshes Of The Florida Everglades, Sparkle L. Malone, Cynthia Keough, Christina L. Staughammer, Michael G. Ryan, William J. Parton, Paulo Olivas, Steve F. Oberbauer, Jessica Schedlbauer, Gregory Starr
Ecosystem Resistance In The Face Of Climate Change: A Case Study From The Freshwater Marshes Of The Florida Everglades, Sparkle L. Malone, Cynthia Keough, Christina L. Staughammer, Michael G. Ryan, William J. Parton, Paulo Olivas, Steve F. Oberbauer, Jessica Schedlbauer, Gregory Starr
FCE LTER Journal Articles
Shaped by the hydrology of the Kissimmee-Okeechobee-Everglades watershed, the Florida Everglades is composed of a conglomerate of wetland ecosystems that have varying capacities to sequester and store carbon. Hydrology, which is a product of the region’s precipitation and temperature patterns combined with water management policy, drives community composition and productivity. As shifts in both precipitation and air temperature are expected over the next 100 years as a consequence of climate change, CO2 dynamics in the greater Everglades are expected to change. To reduce uncertainties associated with climate change and to explore how projected changes in atmospheric CO2 concentration and climate …