Dry Farming in the Practices of the Kalibangans

1993 ◽  
Vol 4 (1) ◽  
pp. 29-38
Author(s):  
C. Mamatamayee
Keyword(s):  
Dry Farming

Effect of Planting Density on the Growth, Water Use Efficiency and Yield of Dry-farming Potato under Different Rainfall Year Types

2018 ◽  
Vol 44 (10) ◽  
pp. 1560
Author(s):  
Xian-Qing HOU ◽  
You-Wen NIU ◽  
Wen-Li WU ◽  
Jin-Peng XU ◽  
Long SHI ◽  
...  
Keyword(s):  
Water Use Efficiency ◽  
Water Use ◽  
Planting Density ◽  
Use Efficiency ◽  
Dry Farming

4.2 ka BP Megadrought and the Akkadian Collapse

2017 ◽  
Author(s):  
Harvey Weiss
Keyword(s):  
Crop Yields ◽  
First Empire ◽  
Adaptive Processes ◽  
The Face ◽  
The Mediterranean ◽  
Farming Landscapes ◽  
Dry Farming ◽  
Standing Army ◽  
Irrigation Agriculture ◽  
Habitat Tracking

The Akkadians, of southern Mesopotamia, created the first empire ca. 2300 BC with the conquest and imperialization of southern irrigation agriculture and northern Mesopotamian dry-farming landscapes. The Akkadian Empire conquered and controlled a territory of roughly 30,000 square kilometers and, importantly, its wealth in labor and cereal crop-yields. The Empire maintained a standing army, weaponry, and a hierarchy of administrators, scribes, surveyors, craft specialists, and transport personnel, sustainable and profitable for about one hundred years. Archaeological excavations indicate the empire was still in the process of expansion when the 2200 BC–1900 BC/4.2–3.9 ka BP global abrupt climate change deflected or weakened the Mediterranean westerlies and the Indian Monsoon and generated synchronous megadrought across the Mediterranean, west Asia, the Indus, and northeast Africa. Dry-farming agriculture domains and their productivity across west Asia were reduced severely, forcing adaptive societal collapses, regional abandonments, habitat-tracking, nomadization, and the collapse of the Akkadian Empire. These adaptive processes extended across the hydrographically varied landscapes of west Asia and thereby provided demographic and societal resilience in the face of the megadrought’s abruptness, magnitude, and duration.

Evidence for a winter-snowpack derived water source for the Fremont maize farmers of Range Creek Canyon, Utah, USA

The Holocene ◽  
2021 ◽  
Vol 31 (3) ◽  
pp. 446-456
Author(s):  
Isaac Alfred Hart ◽  
Joan Brenner-Coltrain ◽  
Shannon Boomgarden ◽  
Andrea Brunelle ◽  
Larry Coats ◽  
...  
Keyword(s):  
Stable Carbon Isotope ◽  
Isotope Analysis ◽  
Summer Precipitation ◽  
Water Source ◽  
Sediment Geochemistry ◽  
Tree Ring Chronology ◽  
Wet Meadow ◽  
Maize Agriculture ◽  
Stable Carbon Isotope Analysis ◽  
Dry Farming

We present results of multiproxy analysis of a sediment core collected from Billy Slope Meadow, a spring-fed wet meadow in Range Creek Canyon, Utah. Range Creek Canyon was the home to Fremont maize farmers between roughly 1200 and 800 cal BP (AD 750–1150). Stable carbon isotope analysis of core sediments from Billy Slope Meadow indicate the Billy Slope Meadow site was used as a field for maize agriculture during that time. Some scholars have suggested the florescence of the Fremont culture may have been driven by increased summer precipitation, which improved the economic profitability of dry farming maize. But analysis of pollen, macroscopic charcoal and sediment geochemistry from Billy Slope Meadow, and a comparison with a local tree-ring chronology indicate the Fremont period in Range Creek Canyon was probably marked by reduced summer precipitation, and not an invigorated monsoon. The Fremont maize farmers of Range Creek Canyon therefore likely used winter snowpack-derived water from Range Creek for maize agriculture. This observation has significant implications, as using creek water rather than direct precipitation and runoff necessitates the construction of dams irrigation infrastructure, limited evidence for which has been reported by archaeologists working in the Fremont region.

scholarly journals SPATIAL EVALUATION OF LAND AND SOIL PROPERTIES IN THE EXAMPLE OF NEVŞEHİR PROVINCE, TURKEY

2021 ◽  
Vol 8 (7) ◽  
pp. 90-102
Author(s):  
M. Cüneyt Bagdatlı ◽  
Esra Can
Keyword(s):  
Soil Properties ◽  
Research Area ◽  
Central Anatolia ◽  
Land Uses ◽  
Arc Gis ◽  
Dry Farming ◽  
Gis Software ◽  
Least Area ◽  
Large Soil ◽  
Soil Groups

In this study, some land and soil properties were spatially evaluated with the help of 1/25.000 scaled digital soil maps belonging to Center of province in the Central Anatolia Region, Turkey. Land use capability, large soil groups, soil depths, erosion, slope and spatial distributions of current land uses were carried out in the research. Arc GIS 10.3.1 software, which is one of the Geographic Information Systems (GIS) software, was used for spatial analysis. With a maximum of 262518 in the study area, VI. class lands. Class I cover an area of ​​247 . In terms of large soil groups, and soils are dominant and the area covered by these soils is 450187 . The least area was found to be reddish brown soils with 124 . It has been determined that the least area in the depth classes is A class (greater than 150 cm) soils. In the study area, it is the soil with the maximum C class (50-90 cm) depth. When the land was examined in terms of slope, it was determined that the land with the highest 3rd degree slope (12-20%) was formed. The research area consists of soil structure that can be exposed to the 2nd degree erosion class at most. When the current land uses are examined, it is the garden area with the least usage area in the region and the area it covers is 3400 . It has been observed that the most dry farming areas are located in the study area. It is thought that the results obtained as a result of the study will be the basis for the agricultural studies to be carried out in Center of province.

Labor Use on Farms in Dry-farming Areas of Konya Province, Turkey

1990 ◽  
pp. 31-53
Author(s):  
Ahmet Erkus ◽  
Taner Kiral ◽  
Hasan Tatlidil ◽  
F. Fusun Tatlidil
Keyword(s):  
Dry Farming

Be There Then : A Modeling Approach to Settlement Determinants and Spatial Efficiency Among Late Ancestral Pueblo Populations of the Mesa Verde Region, U.S. Southwest

2000 ◽  
Author(s):  
Timothy A. Kohler ◽  
James Kresl
Keyword(s):  
Crop Production ◽  
Agricultural Land ◽  
Sediment Control ◽  
Ancestral Pueblo ◽  
Spatial Efficiency ◽  
Catchment Size ◽  
Northern Portion ◽  
Resource Type ◽  
Dry Farming ◽  
The University

The archaeology of southwestern Colorado from A.D. 900 to 1300 presents a number of interesting problems, including population aggregation and abandonment. We report on an on-going project, implemented using the modeling libraries of Swarm, to model the settlement dynamics of this region, treating households as agents. Landscape detail includes an annual model of paleoproductivity, soils, vegetation, elevation, and water resource type and location. Individuals within households reproduce and die; households farm, relocate, and die; children within households marry and form new households. Household location is responsive to changing productivity (depleted in some scenarios) and, in some scenarios, water resources. Comparison of simulated settlement with the archaeological record highlights changes in the settlement and farming strategies between Pueblo II and Pueblo III times, including the increasing importance of water and sediment-control, and other alternatives to extensive dry farming. Our results suggest that degradation of the dry-farming niche may have contributed to these changes. This project began with a desire to understand why, during certain times in prehistory, most Pueblo peoples lived in relatively compact villages, while at other times, they lived in dispersed hamlets (Cordell et al. 1994). Our approach to this problem is based on a thread of accumulating research begun in the early 1980s when a dissertation from the University of Arizona by Barney Burns (1983) showed that it was possible to retrodict potential prehistoric maize yields in a portion of Southwest Colorado by combining prehistoric tree-ring records with historic crop-production records of local farmers. A few years later, Kohler et al. (1986; see also Orcutt et al. 1990) simulated agricultural catchment size and shape in a northern portion of the present study area, to arrive at the suggestion that avoiding violent confrontation over access to superior agricultural land was a major force in forming the villages that appeared in this area in the late A.D. 700s and again in the mid-800s.

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