Detecting Mobility in Early Iron Age Thessaly by Strontium Isotope Analysis

Total Page:16

File Type:pdf, Size:1020Kb

Detecting Mobility in Early Iron Age Thessaly by Strontium Isotope Analysis European Journal of Archaeology 21 (4) 2018, 590–611 This is an Open Access article, distributed under the terms of the Creative Commons Attribution licence (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted re-use, distribution, and reproduction in any medium, provided the original work is properly cited. Detecting Mobility in Early Iron Age Thessaly by Strontium Isotope Analysis 1 2 3 ELENI PANAGIOTOPOULOU ,JANET MONTGOMERY ,GEOFF NOWELL , 3 4 4 JOANNE PETERKIN ,ARGIRO DOULGERI-INTZESILOGLOU ,POLIXENI ARACHOVITI , 5 6 STILIANI KATAKOUTA AND FOTINI TSIOUKA 1Institute of Archaeology, University of Groningen, The Netherlands 2Department of Archaeology, Durham University, UK 3Department of Earth Sciences, Durham University, UK 4Ephorate of Antiquities of Magnesia, Hellenic Ministry of Culture, Volos, Greece 5Ephorate of Antiquities of Larisa, Hellenic Ministry of Culture, Larisa, Greece 6Ephorate of Antiquities of Karditsa, Hellenic Ministry of Culture, Karditsa, Greece This article presents evidence of population movements in Thessaly, Greece, during the Early Iron Age (Protogeometric period, eleventh–ninth centuries BC). The method we employed to detect non-local indi- viduals is strontium isotope analysis (87Sr/86Sr) of tooth enamel integrated with the contextual analysis of mortuary practices and osteological analysis of the skeletal assemblage. During the Protogeometric period, social and cultural transformations occurred while society was recovering from the disintegration of the Mycenaean civilization (twelfth century BC). The analysis of the cemeteries of Voulokaliva, Chloe, and Pharsala, located in southern Thessaly, showed that non-local individuals integrated in the commu- nities we focused on and contributed to the observed diversity in burial practices and to the develop- ments in the formation of a social organization. Keywords: Early Iron Age, Greece, strontium isotope analysis, population mobility, Thessaly INTRODUCTION investigate diet, chronology, and metal and ceramic production in Early Iron Age This article consists of an investigation of Greece (Papathanasiou, 2013; Toffolo population movements in Thessaly during et al., 2013; Rückl, 2014; Orfanou, 2015; the post-Mycenaean period (Early Iron Panagiotopoulou & Papathanasiou, 2015; Age, tenth–ninth centuries BC), using Triantaphyllou, 2015). While strontium strontium isotope analysis of human tooth isotope analysis has been previously con- enamel. Previous research on this period ducted on Greek assemblages (Richards, has primarily focused on the analysis of 2008;Nafplioti,2011), this is the first time ancient historical sources and archaeological this method has been employed to investi- data (Desborough, 1964; Snodgrass, 2000; gate anthropological remains from the Lemos, 2002; Dickinson, 2006;Morris, Early Iron Age in Greece. 2007). In more recent years, various analyt- The region of Thessaly was chosen ical methods have been employed to because it is traditionally considered as © European Association of Archaeologists 2018 doi:10.1017/eaa.2017.88 Manuscript received 19 March 2017, accepted 13 December 2017, revised 5 November 2017 Downloaded from https://www.cambridge.org/core. IP address: 170.106.33.14, on 28 Sep 2021 at 11:00:40, subject to the Cambridge Core terms of use, available at https://www.cambridge.org/core/terms. https://doi.org/10.1017/eaa.2017.88 Panagiotopoulou et al. – Detecting Mobility in Early Iron Age Thessaly by Strontium Isotope Analysis 591 forming the northern border of the 1991; Morris, 2007). Another hypothesis Mycenaean world and, thus, was affected attributes the changes to a shift from seden- in the same way as the rest of the main- tary agriculture to pastoralism (Snodgrass, land by the disintegration of the 2006); studies into the health status of Early Mycenaean civilization (thirteenth–twelfth Iron Age populations, which was considered centuries BC). The collapse of the palatial to have improved compared to the Late system resulted in a deep crisis; it Bronze Age, suggested they consumed prompted the breakdown of a stratified larger amounts of meat (Morris, 2007). society, a decline in social institutions, and However, the lack of sufficient archaeozoo- a social regression (Dickinson, 2006). In logical studies in this period makes it prob- the subsequent Sub-Mycenaean (eleventh lematic to follow this line of enquiry further. century BC) and Protogeometric (tenth More recently, population movement and ninth centuries BC) periods, changes models have once again come to the fore as occurred in social organization, in trade an explanation. These models propose that and interaction, in production and tech- small-scale movements of groups or indivi- nology, in material culture, and in burial duals within and without the old palatial practices (Lemos, 2002). territories explain the cultural and social In the Protogeometric period, the first changes observed (Snodgrass, 2000;Lemos, signs of important social developments 2002;Coldstream,2003;Morris,2007; become visible (Morris, 2007). The distri- Georganas, 2009). bution of pottery and metalwork indicates Several major questions currently dom- that these regions had contacts and inter- inate the scholarly discussions of Early acted either inside or outside Thessaly Iron Age Greece: (Rückl, 2014; Lis et al., 2015). New A. Can we detect whether population cemeteries were established, but pre-exist- movements were associated with ing Mycenaean ones were also still in use. changes in the mortuary record? Mycenaean funerary practices, such as B. If so, were they at the level of a popu- multiple burials in tholoi, were still lation or did they involve individuals present alongside single burials in cists, a or small groups (such as families) practice that spread very extensively in the moving from one place to another? Early Iron Age and is considered to have largely replaced the traditional burial Many approaches have been devised forms (Dickinson, 2006). to detect movements of groups, such as Many theories have been put forward to cultural, technological, and linguistic dif- explain the changes and the mosaic in the fusion, but arguments against such inter- burial record of the post-Mycenaean pretations have been put forward due to period. The notion, based on an interpret- ambiguities or biases in the archaeologi- ation of the work of ancient writers, of a cal data or lack of substantial evidence large-scale migration of hostile groups (Hall, 1997). Here, we aim to examine the from northern areas of Greece and the movements of people in the Early Iron Balkans was posited to explain the sudden Age by integrating strontium isotope ana- and widespread change (Desborough, lysis of human tooth enamel with the con- 1972). This idea lost ground as new evi- textual analysis of mortuary data. dence suggested that it was a deterioration Our study focuses on the mortuary evi- of living conditions that led to a gradual dence from three sites in Thessaly, which transformation of the social organization occupy significant locations and exhibit of Early Iron Age communities (Whitley, substantial variation in funerary practices: Downloaded from https://www.cambridge.org/core. IP address: 170.106.33.14, on 28 Sep 2021 at 11:00:40, subject to the Cambridge Core terms of use, available at https://www.cambridge.org/core/terms. https://doi.org/10.1017/eaa.2017.88 592 European Journal of Archaeology 21 (4) 2018 the cemetery of Chloe, the cemetery of Thessaly (Figure 1), with a period of use Voulokaliva in Halos, and the cemeteries fromthelaterBronzeAge(c. 1300–1100 of Pharsala (Figure 1). BC)toHellenistictimes(c.300–265 BC) (Reinders, 2003; Malakasioti, 2006). Voulokaliva is located on the western coast ARCHAEOLOGICAL CONTEXT of the Pagasetic Gulf near important mari- time routes and along land routes that con- The cemetery of Chloe is one of the burial nected it with the southern and northern grounds of Pherae, a town occupied con- Greek mainland (Stissi et al., 2004). The tinuously from the Late Neolithic (4500– individuals were buriedmainlyinsimplepits 3200/3000 BC) to the Roman period (first andcists,butacircularconstruction,prob- century BC to fourth century AD) (Doulgeri- ably an imitation of a tholos tomb, was also Intzesiloglou, 1994; Doulgeri-Intzesiloglou found. Adjacent to the clusters of burials in &Arachoviti,2006; Georganas, 2008). the cemetery, scattered graves have been The cemetery is located in eastern Thessaly, found throughout the area, but, because the on a plain north-west of the Pagasetic cemetery was a rescue excavation, its full Gulf (Doulgeri-Intzesiloglou, 1994, 1996; extent and perimeter is not (yet) known. Arachoviti, 2000; Doulgeri-Intzesiloglou & The graves included single and double inhu- Arachoviti, 2006; Georganas, 2008) mations of males, females, and subadults (Figure 1). Eight tholoi were discovered, all of all ages (Panagiotopoulou et al., 2016). of the same type; which follows that of the Pharsala is located in southern Thessaly, Mycenaean predecessors, but are smaller near routes to western Thessaly and (Arachoviti, 2000) and located close to each Epirus through Mount Pindos. Two other. This study focuses on two of the burial grounds have been excavated eight tholoi (EII, ZI). These two tholoi (Tziafalias & Batziou-Efstathiou, 2010; contained multiple inhumations of males, Katakouta, 2012): one (Site 1) is a north- females, and subadults older than five years wards extension of the Mycenaean ceme- (Panagiotopoulou et al., forthcoming).
Recommended publications
  • Annual Environmental Management Report
    Annual Environmental Management Report Reporting Period: 1/1/2018÷ 31/12/2018 Submitted to EYPE/Ministry of the Environment, Planning and Public Works within the framework of the JMDs regarding the Approval of the Environmental Terms of the Project & to the Greek State in accordance with Article 17.5 of the Concession Agreement Aegean Motorway S.A. – Annual Environmental Management Report – January 2019 Table of Contents 1. Introduction ................................................................................................................. 3 2. The Company ............................................................................................................... 3 3. Scope .......................................................................................................................... 4 4. Facilities ....................................................................................................................... 8 5. Organization of the Concessionaire .............................................................................. 10 6. Integrated Management System .................................................................................. 11 7. Environmental matters 2018 ....................................................................................... 13 8. 2018 Public Relations & Corporate Social Responsibility Activity ..................................... 32 Appendix 1 ........................................................................................................................ 35 MANAGEMENT
    [Show full text]
  • The Foundation and Occupation of Kastro Kallithea, Thessaly, Greece Laura Surtees Bryn Mawr College, [email protected]
    View metadata, citation and similar papers at core.ac.uk brought to you by CORE provided by Scholarship, Research, and Creative Work at Bryn Mawr College | Bryn Mawr College... Bryn Mawr College Scholarship, Research, and Creative Work at Bryn Mawr College Classical and Near Eastern Archaeology Faculty Classical and Near Eastern Archaeology Research and Scholarship 2014 Exploring Kastro Kallithea on the Surface: The Foundation and Occupation of Kastro Kallithea, Thessaly, Greece Laura Surtees Bryn Mawr College, [email protected] Sophia Karapanou Margriet J. Haagsma Let us know how access to this document benefits ouy . Follow this and additional works at: http://repository.brynmawr.edu/arch_pubs Part of the Archaeological Anthropology Commons Custom Citation L. Surtees, S, Karapanou, and M.J. Haagsma. "Exploring Kastro Kallithea on the Surface:The oundF ation and Occupation of Kastro Kallithea, Thessaly, Greece." In D. Rupp and J. Tomlinson (eds.), Meditations on the Diversity of the Built Environment in the Aegean Basin and Beyond: Proceedings of a Colloquium in Memory of Frederick E. Winter, Athens, 22-23 June 2012 (Publications of the Canadian Institute in Greece 8) (2014). Athens: 431-452. This paper is posted at Scholarship, Research, and Creative Work at Bryn Mawr College. http://repository.brynmawr.edu/arch_pubs/163 For more information, please contact [email protected]. Meditations on the Diversity of the Built Environment in the Aegean Basin and Beyond Proceedings of a Colloquium in Memory of Frederick E. Winter Athens, 22-23 June 2012 2014 Publications of the Canadian Institute in Greece Publications de l’Institut canadien en Grèce No. 8 © The Canadian Institute in Greece / L’Institut canadien en Grèce 2014 Library and Archives Canada Cataloguing in Publication Meditations on the Diversity of the Built Environment in the Aegean Basin and Beyond : a Colloquium in Memory of Frederick E.
    [Show full text]
  • Sustainable Traffic Management in a Central Business District: the Case of Almyros
    INTERNATIONAL JOURNAL of ENERGY and ENVIRONMENT Volume 8, 2014 Sustainable traffic management in a central business district: The case of Almyros Athanasios Galanis, Nikolaos Eliou the city include the development of a complete motorist Abstract— This paper presents the results of a research project parking master plan, combining the on street and off street that evaluates the ability to manage the transportation network in the available parking areas. central area of the city of Almyros, Greece. The proposed network will not only improve the road safety level of motorists and A. Sustainable transportation vulnerable road users but also will provide organized parking areas. Sustainable transport modes contribute into the The proposed traffic management actions are divided into short term environmental, social and economical sustainability of the and long term ones. The short term traffic management actions modern societies. A transportation system serves the demand include the implementation of one way streets, change of traffic signs, the redesign of the sidewalks and the relocation of parking of personal contact. The benefits of mobility rising should areas. The long term actions include the development of a complete balance the environmental, social and economic cost that a motorist parking master plan. transport mode or system provides. There is no commonly accepted definition of sustainable Keywords—Sustainability, Traffic, Management, Pedestrian, transportation. According to the Canadian “Center for Safety, Parking Sustainable Transport” (CST) a sustainable transport system is the one that [1]: I. INTRODUCTION • Serves the needs of accessibility and mobility in HIS paper presents the results of a research project that personal and society level with respect on human and T evaluates the ability to manage the transportation network environment, targeting to balance the needs of in the central area of the city of Almyros, Greece.
    [Show full text]
  • Seawater Intrusion and Nitrate Pollution in Coastal Aquifer Of
    Gounari Christina, Skordas Konstantinos, Gounaris WSEAS TRANSACTIONS on ENVIRONMENT and DEVELOPMENT Alexandros, Kosmidis Dimitrios, Karyoti Aikaterini Seawater Intrusion and Nitrate Pollution in Coastal Aquifer of Almyros – Nea Anchialos Basin, Central Greece GOUNARI CHRISTINA,a SKORDAS KONSTANTINOSa * , GOUNARIS ALEXANDROSa, KOSMIDIS DIMITRIOSa, KARYOTI AIKATERINIb. aDepartment of Ichthyology and Aquatic Environment, University of Thessaly, Fitokou Street, Volos, 38446, GREECE *[email protected] b Hellenic Agricultural Organization, General Directorate for Agricultural Research, Land Reclamation Institute, Sindos 57400, GREECE Abstract: -The exploitation of groundwater resources is of high importance and has become very crucial the last decades especially in coastal areas of Central Greece, due to urbanization, tourist development and intensive agriculture. The phenomenon of seawater intrusion in coastal aquifers is a significant environmental issue in Greece that nowadays is considered as pollution of groundwater, which could pose a threat to human’s health through direct consumption or through irrigation processes. The objectives of this study are to identify and investigate the extent of seawater intrusion in the Nea Anchialos basin in Central Greece. For this purpose, 45 groundwater samples were collected from the study area and analyzed for certain parameters that indicated salinisation of the aquifers. Specifically, water chemical analysis were conducted and statistical analysis regarding spatial distribution were performed. The results demonstrated increased values of the parameters which can be attributed to seawater intrusion. Laboratory analyses indicated that Electrical Conductivity, +2 +2 + + - - -2 concentration for the basic cations (Ca , Mg , Na and K ), HCO3 , Cl , and SO4 varied greatly. Furthermore, - maximum NO3 concentration was 138 mg/L and this can be attributed to overexploitation of coastal aquifer for agricultural activities.
    [Show full text]
  • Optitrans Baseline Study Thessaly
    OPTITRANS BASELINE STUDY THESSALY Version 1.0 Date: February 2019 Contents 1 Introduction ............................................................................................................................................ 5 2 Population and Territorial Characteristics ............................................................................................. 6 2.1 Regional Unit of Larissa ................................................................................................................. 9 2.2 Regional Unit of Trikala ................................................................................................................ 10 2.3 Regional Unit of Karditsa .............................................................................................................. 11 2.4 Regional Unit of Magnesia ........................................................................................................... 12 2.5 Regional Unit of Sporades ........................................................................................................... 13 3 Mobility and Transport Infrastructure ................................................................................................... 14 3.1 Road Transport ............................................................................................................................. 14 3.2 Rail Transport ............................................................................................................................... 17 3.3 Sea Transport ..............................................................................................................................
    [Show full text]
  • Byzantine Ports
    BYZANTINE PORTS Central Greece as a link between the Mediterranean and the Black Sea Vol. I.: Text and Bibliography ALKIVIADIS GINALIS Merton College and Institute of Archaeology University of Oxford Submitted for the degree of Doctor of Philosophy in Archaeology Hilary Term 2014 This thesis was examined by Prof. Michael Vickers (Jesus College, Oxford) and Dr. Archie W. Dunn (Birmingham) on July 24, 2014 and was recommended for the award of Doctor of Philosophy in Archaeology, which was officially granted to the author on October 21, 2014. Correspondence details of the author Dr. Alkiviadis Ginalis Feldgasse 3/11 1080, Vienna AUSTRIA Tel: 0043/6766881126 e-mail: [email protected] ACKNOWLEDGEMENTS This thesis owes a lot to the endless support and love of my family, who above all constantly kept encouraging me. I am particularly greatly indebted to my parents, Michalis and Monika, not only for making it financially possible but also for believing in me, and the way I chose to go. This gave me the incredible chance and strength to take the opportunity of getting the highest academic degree from one of the world’s best Universities. The 3 years I spent at Oxford, both inspired and enriched my academic knowledge, and became an unforgettable and unique personal experience of which I will profit my entire life. Furthermore, they gave me the necessary encouragement, as well as, made me think from different points of view. For support and thoughtful, as well as, dynamic and energetic guidance throughout my thesis my deepest debt is to my supervisors, Dr. Marlia Mango (St.
    [Show full text]
  • Cultural Variations of the Neolithic Landscape of Thessaly
    354 | Arcchaeological Prospection 2015 Interpretation and presentation of prospection results | 355 REFERENCES Bakhuizen, S.C., Gschnitzer, F. and Habicht C. (eds). 1987. Demetrias V. Bonn. Einwanger, J. (ed) 1981. Demetrias IV: Keramik und Kleinfunde aus der Damokratia-Basilika in Demetrias. Bonn. Milojić, V. 1974. Bericht über die Deutschen archäologischen Ausgrabungen in Thessalien 1973. Athens Annals of Archaeology 7: 43-75. Milojić, V. and Theocharis, D. (eds.) 1976. Demetrias I. Bonn. Milojić, V. and Theocharis, D. (eds.) 1978. Demetrias II. Bonn. Milojčić, V., Theocharis, D., Marzolff, P. and Böser, W. (eds.) 1980. Demetrias III: Demetrias und seine Halbinsel. Bonn. Rumscheid, F. (ed.) 1998. Priene: A Guide to the Pompeii of Asia Minor. Istanbul, Ege Yayinlari. Sarris, A., Papadopoulos, N., Déderix, S., and Salvi, M.C. 2013. Geophysical approaches applied in the ancient theatre of Demetriada, Volos. In D.G. Hadjimitsis, K. Themistocleous, S. Michaelides, and G. Papadavid (eds), Proceedings on the First International Conference on Remote Sensing and Geoinformation of the Environment (RSCy2013), Bellingham. Zanker, P. (ed.) 1998. Pompeii: Public and Private Life. Cambridge, Massachusets, London. Cultural variations of the Neolithic landscape of Thessaly Apostolos Sarrisa, Tuna Kalaycia, François-Xavier Simona, d, Jamieson Donatia, Carmen C. Garcíaa, Meropi Manatakia, Gianluca Cantoroa, ReSeArcha a a Georgia Karampatsou , Evita Kalogiropoulou , Nassos Argyriou , Fig. 3. Results of the SENSYS magnetic prospection from the field close to the shoreline Sylviane Dederixa, Cristina Manzettia, Nikos Nikasa, Konstantinos Vouzaxakisc, Vasso Rondirib, Polyxeni Arachovitib, Kaliopi Almatzib, b b is subdivided into four rooms. The western room appears to have an apsidal end. North of Despina Efstathiou and Evangelia Stamelou these rooms, a large square area (courtyard?) appears in the geophysical data.
    [Show full text]
  • Hellenistic Dietary Reconstruction and Population Mobility at the Site of New Halos, Thessaly, Greece
    Taking a Bite out of History: Hellenistic Dietary Reconstruction and Population Mobility at the Site of New Halos, Thessaly, Greece by Hillary Anne Sparkes A thesis submitted in partial fulfillment of the requirements for the degree of Doctor of Philosophy Department of Anthropology University of Alberta © Hillary Anne Sparkes, 2017 Abstract The Hellenistic site of New Halos in Thessaly Greece was founded around 302 BC and was occupied for a short period of time until it was destroyed by an earthquake. The short occupation makes New Halos an ideal site for study because it represents a snapshot of rural Hellenistic life. Both the site of New Halos and an associated Hellenistic cemetery were excavated prior to this research. Skeletal remains from 98 individuals were collected for stable isotope analysis. Stable carbon and nitrogen isotopes from bone collagen and enamel carbonate were used to analyze diet composition. Mobility patterns were studied using strontium and oxygen isotopes from enamel apatite. The goals of this study were to investigate dietary habits at New Halos and understand dietary preferences. This study evaluated the importance of marine resources at New Halos. New Halos is situated close to the coast and during the excavations many marine shellfish were recovered suggesting they were an important dietary resource. The majority of the individuals at New Halos were consuming a C3 terrestrial based diet. Some individuals showed signs of marine input while others appear to have consumed a diet whose protein was drawn primarily from domesticated animal products. A second thread of investigation involved examining migration patterns and population composition.
    [Show full text]
  • Detecting Mobility in Early Iron Age Thessaly by Strontium Isotope Analysis
    European Journal of Archaeology 21 (4) 2018, 590–611 This is an Open Access article, distributed under the terms of the Creative Commons Attribution licence (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted re-use, distribution, and reproduction in any medium, provided the original work is properly cited. Detecting Mobility in Early Iron Age Thessaly by Strontium Isotope Analysis 1 2 3 ELENI PANAGIOTOPOULOU ,JANET MONTGOMERY ,GEOFF NOWELL , 3 4 4 JOANNE PETERKIN ,ARGIRO DOULGERI-INTZESILOGLOU ,POLIXENI ARACHOVITI , 5 6 STILIANI KATAKOUTA AND FOTINI TSIOUKA 1Institute of Archaeology, University of Groningen, The Netherlands 2Department of Archaeology, Durham University, UK 3Department of Earth Sciences, Durham University, UK 4Ephorate of Antiquities of Magnesia, Hellenic Ministry of Culture, Volos, Greece 5Ephorate of Antiquities of Larisa, Hellenic Ministry of Culture, Larisa, Greece 6Ephorate of Antiquities of Karditsa, Hellenic Ministry of Culture, Karditsa, Greece This article presents evidence of population movements in Thessaly, Greece, during the Early Iron Age (Protogeometric period, eleventh–ninth centuries BC). The method we employed to detect non-local indi- viduals is strontium isotope analysis (87Sr/86Sr) of tooth enamel integrated with the contextual analysis of mortuary practices and osteological analysis of the skeletal assemblage. During the Protogeometric period, social and cultural transformations occurred while society was recovering from the disintegration of the Mycenaean civilization (twelfth century BC). The analysis of the cemeteries of Voulokaliva, Chloe, and Pharsala, located in southern Thessaly, showed that non-local individuals integrated in the commu- nities we focused on and contributed to the observed diversity in burial practices and to the develop- ments in the formation of a social organization.
    [Show full text]
  • Mapping Crop Evapotranspiration and Total Crop Water Requirements Estimation in Central Greece
    European Water 13/14: 3-13, 2006. © 2006 E.W. Publications Mapping Crop Evapotranspiration and Total Crop Water Requirements Estimation in Central Greece M. Sakellariou-Makrantonaki, I. N. Vagenas University of Thessaly - Department of Agriculture, Crop Production and Rural Environment Fitokou Street, 38446 Nea Ionia, Volos email [email protected] Abstract: The aim of this study is to map the reference crop evapotranspiration and rainfall and with the aid of these maps to estimate the total irrigation crop water requirements in central Greece (Prefectures of Larissa and Magnesia) irrigated both by private and public boreholes and by surface waters during the irrigation period of the year 2001 by using FAO Penman-Monteith method. The mean daily reference crop evapotranspiration for each month and each of the 54 Μunicipalities of the two Prefectures was estimated, by using meteorological data for a period of 22 years (1980- 2001). Crop evapotranspiration and net water requirements were computed for each crop in the Municipalities of the Prefectures for the whole irrigation period. Finally, the total irrigation water requirements of crops during the irrigation period of the year 2001 for the 147,299 hectares of irrigated land of the region were estimated 698,000,000m3 with average 4,739m3/hectare. Key words: mapping, central Greece, evapotranspiration, Penman-Monteith , crop water requirements 1. INTRODUCTION The water, as natural resource, constitutes a condition of life and essential infrastructure for development and culture for each country. Particularly in a country like Greece whose economy relies at a big percentage on Agriculture, the importance of water in its development is even bigger.
    [Show full text]
  • CORPORATE SUSTAINABILITY REPORT Table of Contents 3
    CORPORATE SUSTAINABILITY REPORT Table of contents 3 TABLE OF CONTENTS Message from the Chairman ............................................... 5 5. Responsible procurement Message from the Corporate Sustainability Manager .......... 6 Our supply chain .........................................................................40 Our procurement practices .........................................................41 1. Our company Our vision, our mission, our commitment and our values ............7 6. Care for the environment Loulis Mills at a glance ................................................................8 Our approach to environmental protection ................................43 Our achievements in 2017 ............................................................9 Environmental management system ...........................................44 Our facilities ................................................................................10 Energy consumption & air emissions ............................................45 Our products & our services ........................................................12 CO2 emissions ..............................................................................46 Our contribution to the economy ................................................13 Waste management ....................................................................47 Our Corporate Governance .........................................................13 Transport-related emissions .......................................................47
    [Show full text]
  • Optitrans Baseline Study Thessaly
    OPTITRANS BASELINE STUDY THESSALY Version 1.2 Date: July 2019 Contents 1 Introduction ......................................................................................................................................... 5 2 Population and Territorial Characteristics ........................................................................................... 6 2.1 Regional Unit of Larissa ............................................................................................................... 9 2.2 Regional Unit of Trikala ............................................................................................................. 10 2.3 Regional Unit of Karditsa ........................................................................................................... 11 2.4 Regional Unit of Magnesia ......................................................................................................... 12 2.5 Regional Unit of Sporades ......................................................................................................... 13 3 Mobility and Transport Infrastructure ................................................................................................ 13 3.1 Road Transport .......................................................................................................................... 14 3.2 Rail Transport ............................................................................................................................ 17 3.3 Sea Transport ...........................................................................................................................
    [Show full text]