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Marne: Cours de la Marne depuis Chamouilley jusqu'à la Seine, carte de Brière de Mondétour (1836)
No full textCarte du cours de la Marne depuis Chamouilley (Haute-Marne) jusqu'à la Seine. Carte de Brière de Mondétour (1836).
La carte est contre-collée sur une autre feuille sur laquelle a été ajouté le titre et la signature de l'ingénieur en chef. La carte, insérée dans un projet indique les toponymes, les chemins, les forêts aux abords du cours de la Marne.
Le projet d'amélioration de la navigation est tracé en rouge : il s'agit de construire un canal latéral à la Marne entre Cumière et Vitry-le-François. A Vitry-le-François deux canal permettraient de continuer la navigation : le canal de la Marne à la Saône et le canal de la Marne au Rhin. Le canal latéral à la Marne semble effectivement avoir été construit grâce à ce projet.
Les travaux ont été autorisés en 1837 et ouvert un an plus tard. En revanche le canal de la Marne au Rhin ne suit pas le trajet prévu par l'ingénieur. Il est aussi plus récent : les travaux ont débuté une fois le canal latéral achevé. Le canal de la Marne au Rhin, lui, date du XVIIème siècle.
Ensemble de 3 rasters :
CG_Marne_Chamouilley_1836_1.tif
CG_Marne_Chamouilley_1836_2.tif
CG_Marne_Chamouilley_1836_3.tif
Service des Cartes et Plans des Archives Nationales. Cote AN F/14/10068/1/14.
Numérisation en 2014. Géoréférencement en 2015 par Julie Davodet. Mise en ligne en mai 2015. Métadonnées par Julie Davodet et Juliette Audet.</p
A laz-to-.raw workflow to convert LiDAR data into a Unity-compatible heightmap for interactive visual flood narratives with ReFlood
No full textFor a given LIDAR cloud tile, a .laz-to-.raw processing pipeline enables the conversion of LiDAR data into a Unity-compatible heightmap.
This can be used for instance in the ReFlood software that translates complex hydrological models into accessible visual narratives, thereby facilitating dialogue in workshops with policymakers and local communities.
The resulting heightmaps, however, require expert verification to ensure flow continuity—particularly in cases where small watercourses are routed beneath road infrastructure.
This dataset provides a Python script for such a workflow
Replication data for: Fig 5.4, Bottom, Allogrooming, BTPDs vs WTPDs, 16 Oct 2025
No full textFILE DESCRIPTION
Keywords: Allogrooming, interspecific comparison, black-tails vs white-tails
File name = Fig 5.4, Bottom, Allogrooming, BTPDs vs WTPDs, 16 Oct 2035
I used these data for Fig 5.4, bottom graph, of Hoogland 2026
The number above SE line indicates the number of 30-min periods of observation.
WTPD = white-tailed prairie dog BTPD = black-tailed prairie dog
BTPDs and WTPDs were not marked, but I switched areas of observation
for each 30-min period of observation. I considered all data to be independent.
All data in this table are from ADULT WTPDs--i.e., no data from juveniles.
These data ready for longterm storage on 17 Sept 2025.
WTPD and BTPD data shown here are summaries. Raw data are in my field notes.
This EXCEL file for ALLOgroomings. Seeother EXCEL file for AUTOgroomings.
Allogrooms per adult per hou
Caenolestes fuliginosus MNHN.CG.1982.940
No full textThis dataset includes the slices of the specimen MNHN.CG.1982.940 from the species Caenolestes fuliginosus (Mammalia, Marsupiala) which have been scanned with a synchrotron at the ESFR Grenoble (ESFR Experiment LS-2427 ED19/2015) with a resolution of 6.23µm. (2025-07-01
Replication data for: Fig 9.14 + 10.8, BTPDs, coterie size, coterie type vs male ARS, 05 Dec 2025
No full textFILE DESCRIPTION
Keywords: BTPDs, coterie size, coterie type, male ARS
File name = Fig 9.14 + 10.8, BTPDs, coterie size, coterie type vs male ARS, 05 Dec 2025
OLDFile name = BTPDs, Cotsize and Cottype vs Male ARS, 08 Oct 2021
This file is IDENTICAL to BTPDs, Male ARS for cops, babies, and yearlings vs coterie size, 02 Sept 2021
See notes immediately below.
I created this file from SYSTAT file = MRSVSCOT.SYS, which I created on 10 Oct 1989
I assume that I checked this file TWO TIMES for my first book (Hoogland 1995)
File name = BTPDs, Male ARS for cops, babies, and yearlings vs coterie size, 02 Sept 2021
Estimates of male ARS for this file are sexual partners, sired litters, sired weanlings, and sired litters
Sired weanlings = number of emergent babies sired in single year
Sired yearlings = number of yearlings sired in single year,
Sired litters = number of litters for which male sired at least one weanling
Coterie size = number of adults and yearlings living in same coterie territory
Coterie type = 0 = No-male coterie
Coterie type = 0.5 = half-male coterie--but I do not see any half-male coteries in this file!
Coterie type = 1 = One-male coterie
Coterie type = 2 = Multi-male coterie
See Chapter 10 of Hoogland 2026 for descriptions of coterie types.
Sexual partners = number of different females with whom male copulated
Litters = number of litters for which male sired at least one baby sired
All sirings determined via electrophoresis by David Foltz
Adult females = number of >=2-year old females in home coterie territory
All females = number of adult and yearling females in home coterie territory
These data used for Figure 9.14 and 10.8 in Hoogland 2026.
This file ready for longterm storage on 06 Feb 2025.
Birthyear = year of birth and weaning for each male
File name = Fig 9.14 + 10.8, BTPDs, coterie size, coterie type vs male ARS, 05 Dec 202
Replication data for: Fig 8.10, Alarm calling vs kinship, same BTPD or UPD in different years, 20 Nov 2025
No full textFILE DESCRIPTION
Keywords: alarm calls vs kinship, same prairie dog in three different years
File name: Fig 8.10, Alarm calling vs kinship, same BTPD or UPD in three different years, 20 Nov 2025
Old file name: Fig 8.10. Alarm calling by long-lived prairie dogs that experienced at least two changes
regarding the presence of juvenile offspring in the home territory over time.
Callfreq = Percentage of times prairie dog gave alarm call in response to stuffed badger
Note that Callfreq in this file is PERCENTAGE, not proportion.
For UPD fem-HBS, data are in EXCEL file for Fig 8.1.
For BTPD fem-BB3 and BTPD male-02, data come from unpublished field notes
Each circle in this figure represents one percentage per prairie dog per year
File name: Fig 8.10, Alarm calling vs kinship, same BTPD or UPD in different years, 20 Nov 2025
For this table, I considered data from the same prairie dog in different years to be independen
Replication Data for Fig 5.3, Top, BGUW, Fleas per adult in March or April, 13 Oct 2025
No full textFILE DESCRIPTION
Keywords: BGUW, fleas per adult, March-April
Figure 5.3, Top, Number of fleas per adult in February, March, or April.
See Fig 5.3, Middle, for number of fleas per adult in May or June.
The number above each SE line indicates the number of individuals for which my students
and I counted fleas during the process of handling and marking.
See figures 3.5 and 3.6 for intersexual differences in flea-counts for adults and juveniles.
B = BTPDs = black-tailed prairie dogs. W = WTPDs = white-tailed prairie dogs
G = GPDs = Gunnison's prairie dogs U = UPDs = Utah prairie dogs
BGUW = black-tails, gunnisons, utahs, and white-tails
Numbers shown here are means plus one standard error (SEM).
Note: these data are summaries only. Most of the raw data are in
EXCEL file = BGUW, Final flea and body masses, 14 Jan 2025.
Note: Flea counts from adults in this file are from TWO time periods: March-April and May-June
Note: Flea counts for juveniles are at first juvenile emergence = May -June
I used only one flea-count per adult prairie dog per time period
Marne: Vallée de la Marne de Fronville à Chamouilley (19ème siècle)
No full textCarte de la vallée de la Marne de Fronville à Chamouilley (19ème siècle).
Ce plan a été levé par les géomètres Dupaty - Minguet - Matrat – Thévenot. C'est un ensemble de six feuilles, ici la feuille 2.
Un grand soin a été apporté à la représentation des églises, très stylisées. Les prés, prairies, terres labourables et vignes sont indiqués. Les chemins sont également représentés.
Cette carte est élaborée selon le « genre fini », qui apporte un grand soin aux détails et à la couleur, qui doit être transparente et s’approcher le plus possible de la nature. Le tracé est minutieux et appliqué et l’on distingue même les ombres des arbres.
Raster GeoTIFF : EAT_Marne_Fronville_Chamouilley_1800.tif
Service des Cartes et Plans des Archives Nationales. Cote AN F/14/10068/1/13b.
Numérisation en 2015. Géoréférencement en 2015 par Juliette AUDET. Métadonnées par Juliette AUDET. Mise en ligne en juin 2015.</p
Relication data for: Fig 5.15, Ratio of female prairie dogs with juvenile offspring vs other types of kin (but no offspring) in the home territory, 21 Nov 2025
No full textFILE DESCRIPTION
Keywords: ratio, juvenile offspring vs only other types of nearby kin, BGUW
File name: Fig 5.15, Ratio of female prairie dogs with juvenile offspring vs other types of kin (but no offspring) in the home territory, 21 Nov 2025
These are ratios during experiments with the experimental American badgers.
These experiments occurred shortly after first juvenile emergences from the natal burrow entrances.
I use these data for Fig 5.15 of Hoogland 2026.
I checked these data two times at creation of this figure.
File name: Fig 5.15, Ratio of female prairie dogs with juvenile offspring vs other types of kin (but no offspring) in the home territory, 21 Nov 202
Aisne: Aménagement de la rivière d'Aisne à Neufchâtel par Blanvillain (1834)
No full textCette carte - projet a été conçue par l'ingénieur Blanvillain en 1834 d'après une première proposition de l'ingénieur Marcilly en 1825, dans le but d'améliorer les conditions de navigation de l'Aisne entre Neufchâtel et l'embouchure de l'Oise.
Les aménagements à réaliser sont indiqués en rouge : un chemin de halage à Evergnicourt, un redressement de la rivière à Varicourt, une écluse et un redressement à Pignicourt. Le canal de Menneville a été rapporté à la mine de plomb.
Le document respecte les conventions des cartes et plans du début du XIXe siècle : aménagements à effectuer tracés en rouge, maçonnerie rouge, rivières bleues et chemins non lavés.
Raster GeoTIFF : EAT_Aisne_Neufchatel_Blanvillain_1834.tif
Service des Cartes et Plans des Archives Nationales. Cote AN F/14/10049/1/4.
Numérisation en 2014. Géoréférencement en 2014 par Julie DAVODET. Métadonnées par Julie DAVODET et Juliette AUDET. Mise en ligne en avril 2015.</p