Wednesday, April 17, 2013

Climate of the "Emerald Isle"

Overall


Enriched with greenery from its profusion of grass and shamrocks, Ireland is dubbed the "Emerald Isle." Temperate, damp, and changeable with the abundance of rainfall and a shortage of temperature extremes, best describes Ireland's climate. Koppen's system of climate classification categorizes it as temperate oceanic climate or Cfb. Characteristics include a mild, mid-latitude climate, no dry season, and wet throughout the year. Annually, Ireland's average precipitation ranges from 30 inches along the east coast to 118 inches along the west coast. The ocean current, North Atlantic Drift, broadens the Gulf Stream's warm waters north which provides Ireland its moderate climate. However, this drift, along with Ireland's susceptibility to Siberian/Arctic winds, and its northerly latitude, can create precarious winters.


The North Atlantic Drift transports heat through the process of convection
(movement of molecules) currents from the seas of South America
 up to the seas of Ireland.
(http://coraifeartaigh.wordpress.com/2010/02/09/heat-transfer/)
 

Ireland's stunningly green countryside resulting from ample rainfall
(https://www.google.com/)


Irish villages are nestled within rich green vegetation
(also a result of Ireland's frequency of precipitation).
Cork, Ireland
(https://www.google.com/)

Pinned Image
Moss bridges in Ireland
The prevalence of moss in Ireland results from their annual relative humidity averaging 83%.
The combination of temperature and prevailing water vapor (gas phase of water in earth's hydrosphere)
 contribute to the higher humidity.
(http://pinterest.com/pin/273453008596169946/)

Fog

Ireland's weather forecast consistently includes fog. Most of the fog hovers inland and in the mountainous regions. Fog generally appears during winter mornings and when high pressure is present. This type of fog constitutes radiation fog. In order for radiation fog to occur, the skies must be clear, there must be little wind, and there needs to be plenty of moisture near the ground. The ground chills air through conduction until the dew point (the temperature below which water condenses and dew forms) occurs.

A foggy day in the capital of Dublin
Radiation fog occurs here because the sun rises (indicative of morning), and clear sky exists.
The trees indicate winter and absence of wind.
 
A pasture of sheep in County Donegal, Northern Ireland.
This photo also depicts the occurrence of radiation fog.
The fog lingers close to the ground during the morning.
 

 Tornadoes

A rarity in Ireland - tornadoes, but they do occur. These tornadoes work simply. Three major factors need to be present for a tornado to materialize. Step one: There needs to be a strong cold front (a separation between advancing cold and retreating hot air). Step two: A tornado requires a large difference in humidity (a "dry line" dividing moist and dry air). Finally, Step three: A jet stream needs to form (it draws air from the ground). In Ireland, the intensity of tornadoes remains relatively weak, in the range of EF0 and EF3 on the Fujita Scale of tornado intensity.

 
A distribution of tornadoes that occurred in Ireland between 1950 and 2001
A relatively small number in 51 years confirms the rarity of them in the country.
 
This dramatic picture captures the moment a tornado hit County Derry.
A tornado that formed in County Londonderry, Northern Ireland
This tornado resulted from a collision of a cold and warm front.
It struck on June 10, 2011 due to the current thunderstorm conditions of that time period.
The tornado developed because of inflow into the thunderstorm clouds.
 
A tornado positioned over water (a waterspout) in Bray, Ireland.
A waterspout forms the same way as a tornado but instead of on land, it forms on water.
The jet stream positions itself on water, not land.
 
 
Research Sources:
 
 








Monday, March 11, 2013

Breaking Down the "Brogue"-land

 

Weathering: A Focus on the Burren

 
Weathering, both physical and chemical, occurs notably in an area of the Emerald Isle known as the Burren. Burren means “a rocky place” in Irish Gaelic. The Burren positions itself on the southern shore of Galway Bay with the Atlantic Ocean to the west. Karst, or alvar, defines the type of landscape depicted by the Burren. Alvar landscapes are biological environments founded on a limestone plain amidst thin, or no soil. These landscapes are treeless, grass-covered, and flood-prone. The summer season brings drought to these plains. The Burren emerges as a large table made of great limestone slabs known as clints. These clints are separated by cracks known as grikes. Grikes are weak, vertical joints, or cracks in the rock, a result of glaciation. Frost weathering, a component of glaciation, causes the grikes. Cracks in the clints fill with ice, triggering an increase in volume. Pressure from the ice splits the rock apart. The various chemical processes here stem from dissolution, the dissolving of a mineral in water. Limestone dissolution takes prevalence at the Burren. Beneath the Burren lies a scattering of caves; limestone dissolution’s most notable feature. Rivers flow through these caves, assisting in the process of limestone dissolution.


Map of Ireland showing location of the Burren
(South of Galway Bay with Atlantic Ocean to the west)
The cities and villages surrounding the Burren include Limerick, Ennis, Shannon, and Killrush.
(https://blogger.googleusercontent.com/img/b/R29vZ2xl/AVvXsEgHeMGSqhwd_gaMrVd_zSfVAsx6hcfecVlHC9XR36opwNpKa4s0ADl4-d0vineN_NodlzDjSrBTln1yetDXCufnKPLPXRTbQi8_IT2E2KJjGfXD7dRRTsWr0w8AnXyBrrmviePni60HIoJp/s1600/ireland.jpg)



The clint and grike phenomena of the Burren.
The plateau-like limestone structures here represent the clints.
The deep fissures (especially the one running down the center), signify the grikes formed as a result of glaciation.
As frost seeped down into small cracks in the clints, volume expansion occurred, then the frost liquified, producing the grikes.
The grikes denote joints in the limestone.
(http://cache.graphicslib.viator.com/graphicslib/media/fc/the-burren-photo_4387580-fit468x296.jpg)


The Burren- yes, flowers do grow in the grikes between the clints.
(http://www.captivelandscapes.com/imgs/gallerylarge/f8d_5310_759402.jpeg)

Ailwee Cave: a characteristic of dissolution in the Burren
The water, in the form of moisture seen on the cave's walls is indicative of this process.
Water dissolves the mineral, calcite, found in limestone, and over time, the erosion of the limestone forms caves.
  
 

Soils: The Dirty Details 

 
Various elements' culmination create the distinct types of soil in Ireland. The effects of leaching are one such element. Leaching defines itself as the draining away of a soluble chemical or mineral from soil by the action of a filtering liquid. The soil profile of Ireland contains four of the six soil horizons, the O, A, B and C-horizons. The different types of soil found in Ireland include podzols (and two of its subdivisions), brown earths (including rendzinas), peats, gleys, and lithosols. Gley contains a high clay percentage. Peat contains acidic properties and cannot grow crops; however, it does fuel homes and industries.


A map displaying the types of soils found in Ireland
Podzols emit a grey color in its E-horizon (layer) of its profile. Leaching occurs in podzols.
Iron, aluminum oxide and organic matter present themselves in this soil type.
Brown podzolics, a subgroup of podzols, act as a link between podzols and brown earths.
The brown color, humus (decayed organic matter), and minerals aid in creating brown earth soil.
Dark, greyish-brown, humus-rich soil create rendzinas.
Grey brown podzolics contain small amounts of clay in its B-horizon.
Peats' composition primarily consists of decayed vegetation, and classifies itself as a histosol. 
Sticky clay soil attributes to the structure of Gleys.
Lithosols form from unweathered or partly weathered rock fragments.
 
 
An example of a profile of Ireland's soil.
The profile consists of gleysol.
In descending order, the horizons include:
O-horizon-immediate organic material
A-horizon-humus layer
B-horizon-brown layer, clay-enriched
C-layer-no organic matter, called regolith (loose material covering rock)
 
 
A video explaining the importance of peat bog conservation
Peat bogs fuel homes and industries in Ireland.
Bog depletion drives global warming.
A very controversial issue.
 
 
Research Sources
McKnight's Physical Geography: A Landscape Appreciation Tenth Edition
 
 
 
 


 


 

 

 





 

Sunday, February 17, 2013

The Formation of Ireland

Brief History


It was 450 million years ago that the northwest section of Ireland was part of a landmass that is now primarily North America. The remainder of Ireland was situated beyond an ocean several thousand miles south and was part of another tectonic plate. 440-400 million years ago, the two sections finally collided. This is evident today in Ireland by the way mountain axes are arranged, northeast to southwest. Ireland moved north toward the equator approximately 350-300 million years ago, and the sea spread across southern Ireland. Thick limestone deposits, marine shales and other rocks formed, which resulted in the formation of land. Approximately 60 million years ago, sea-floor and magma spreading, along with volcanism, helped produce the landform known as Giant's Causeway.



Chevron Folds
Variscan folds near the small village of Loughshinny, Ireland
(http://www.gsi.ie/)




Rock Types


Ireland contains an abundance of many different types of rock, made up of several diverse types of minerals. Some of the igneous varieties of rocks found in Ireland are basalt (extrusive, small crystal), and granite (intrusive, large crystal). The oldest rock on the island is the metamorphic gneiss. Quartzite, another metamorphic rock, forms the peaks of Ireland's Errigal and Sugar Loaf mountains. Along with the metamorphic schist found on the island, there is slate. This rock is quarried at Valentia Island. Different forms of sedimentary rock found on Ireland include red sandstone, shale, limestone, and coal.


Location of rock types found in Ireland
(http://www.mining-journal.com/)
Slate quarry mine on Valentia Island
(http://www.panoramio.com/)

 
Sandstone cliffs in Harrylock Bay
Red sandstone cliffs at Harrylock Bay, Ireland
(http://www.geograph.ie/)

Folded Gneiss rock on Annagh Head, Mullet Peninsula, Co. Mayo
Gneiss - oldest rock type found in Ireland
(http://www.ingeniousirelandonline.ie/)

 

Special Feature:  Giant's Causeway


Giant's Causeway is an amazing natural phenomenon on the northernmost tip of the Emerald Isle in Northern Ireland. This landscape is well known for its 40,000 interlocking, awe-inspiring, hexagonal pillars. Volcanism contributed to the formation of this site. Fluid, molten basalt flows intervened through chalk beds to form a lava plateau. This formed lower, middle, and upper basalts. What we see of the causeway is the middle basalt. As the lava quickly cooled, contraction followed horizontally, with cracks descending down, leaving the astounding, distinct pillars.

 
Giants Causeway. County Antrim, Ireland
Panoramic view of Giant's Causeway in County Antrim, Ireland
(http://www.old-picture.com/)


Giant's Causeway on a clear day
(http://onestep4ward.com/)


Hexagonal tops of Giant's Causeway's pillars
(http://onionesquereality.wordpress.com/)

Submitted by Parkfields Middle School
Enormity of certain pillars at the causeway
(http://gallery.nen.gov.uk/)
 
Giant's Causeway - Fact or Myth?
 
 

Research Sources

 




Saturday, January 26, 2013

Introduction

 

This blog is created and maintained by Daniel Sprague.

My name is Daniel Sprague and I am a student at the University of Colorado Denver. I am majoring in International Business, with a minor in Spanish. I have always had a passion for learning about other countries and their specific geographical features. My goal is to one day travel the world, learning and appreciating the countless elements that contribute to the uniqueness of each and every country.

I have chosen Ireland for my blog, as this country represents a part of my heritage that I want to discover more about. Whether it is the abundance of rain, the copious miles of bogland, or the distinctiveness of Giant's Causeway, it is with much enthusiasm that I look forward to our journey through the physical geography of the Emerald Isle.



Killarney National Park
SW Ireland
(http://www.travelinireland.com/)