Search This Blog

مشاركة مميزة

[Ornithology • 2017] Myzomela irianawidodoae • A Colourful New Species of Myzomela Honeyeater from Rote Island in eastern Indonesia ---ScRaBBlE

Myzomela irianawidodoae Prawiradilaga, Baveja, Suparno, Ashari, Ng, Gwee, Verbelen & Rheindt, 2017  photo:   Philippe Verbelen  e-journ...

Translate

Showing posts with label Xenarthra. Show all posts
Showing posts with label Xenarthra. Show all posts

Wednesday, March 20, 2019

[PaleoMammalogy • 2017] Xibalbaonyx oviceps • A New Megalonychid Ground Sloth (Folivora, Xenarthra) from the Late Pleistocene of the Yucatán Peninsula, Mexico, and Its Paleobiogeographic Significance ---ScRaBBlE


Xibalbaonyx oviceps 
Stinnesbeck, Frey, Olguín, Stinnesbeck, Zell, Mallison, González, Núñez, Morlet, Mata, Sanvicente, Hering & Sandoval, 2017.

 DOI: 10.1007/s12542-017-0349-5 

Abstract
Here we describe a new genus and species of giant ground sloth, Xibalbaonyx oviceps (Megalonychidae, Xenarthra), from the drowned cave system of the northeastern Yucatán Peninsula. The specimen is Late Pleistocene in age and was discovered in the Zapote sinkhole (cenote) near Puerto Morelos in the Mexican state of Quintana Roo. Xibalbaonyx oviceps differs significantly from all hitherto known Megalonychidae including those from the Greater Antilles and South America. The new taxon suggests a local Caribbean radiation of ground sloths during the Late Pleistocene, which is consistent with the dispersal of the group along a Mexican corridor.

Keywords: Ground sloths, Pleistocene, Yucatán Peninsula, Mexico 


Systematic palaeontology
Superorder Xenarthra Cope, 1889
Order Pilosa Flower, 1883

Superfamily Megatherioidea Gray, 1821
Family Megalonychidae Gervais, 1855

Diagnosis of the family. Xibalbaonyx oviceps is identified as a member of Megalonychidae based on the following features: dorsal contour of skull evenly convex in lateral view. The glenoid fossa is mediolaterally widened, its posterior surface smooth and the fossa is well separated from the porus acusticus. The lateral plate of the entotympanic is thin with a medial expansion and weak participation in the floor of the tympanic cavity. The paroccipital process is well developed (Patterson et al. 1992; Gaudin 1995, 2004; McDonald et al. 2013b).


Fig. 4: Xibalbaonyx oviceps (Za2014-01) skull in lateral view (left side). 

Fig. 3: Xibalbaonyx oviceps in situ within the Zapote cenote; Skull and mandible (Za2014-01, -05)

Xibalbaonyx oviceps gen. et sp. nov.

Etymology. For the genus: Xibalbá = Maya for “underground” or “place of fear,” dedicated to the cave divers who dive into the “underworld,” the cenotes, and collect the fossils under risky conditions, but also in honor of the Yucatán Peninsula, which is also called the Maya region; “őνυξ” (onyx) = Greek for “claw” or “finger nail;” for the species: oviceps from ovum = Latin for “egg” and caput = “head,” “egghead,” referring to the regularly domed skull roof of the specimen.

Stratigraphic and geographic distribution. The Cenote Zapote 16 Q 0486971 UTM 2305968, Ruta de los Cenotes Puerto Morelos Quintana Roo, Mexico. Late Pleistocene and/or Early Holocene (9.305 ± 35 14C bp, 10.647–10.305 cal bp).

.....


 Conclusions: 
The well-preserved skull and mandible of a ground sloth discovered in the Zapote cenote Cave near Puerto Morelos on the northeastern Yucatán Peninsula of Mexico is here described as a new genus and species of Megalonychidae. The individual, here named Xibalbaonyx oviceps, has a dental formula of 5/4 including a greatly enlarged caniniform tooth of triangular cross-section. This caniniform is separated by a long diastema from the molariform tooth rows in both the lower and upper jaw. The molariform teeth show oval, rounded rectangular to reniform (McDonald et al. 2013b) occlusal shapes with transverse crests. All teeth except for the upper caniniforms, show striations and apicobasal sulci that may be expressed as shallow grooves or deep sulci. The ascending process of the jugal is longer than the descending and middle process of the jugal. The pterygoids are inflated. The glenoid fossa is transversally widened. The skull is elongated and narrow, with a nasional impression on the nasals. The temporal lines are widely separated and do not form a sagittal crest. The skull is narrow and gracile compared that of other Megalonychidae of similar size, such as Megalonyx or Ahytherium. The Zapote ground sloth was a subadult individual, based on the degree of suture fusion in the skull, faint temporal lines and the condition of the occlusion faces of the molariforms. To present knowledge Xibalbaonyx appears to have been endemic on the Yucatán Peninsula, suggesting a local microevolution on this karst desert during the Late Pleistocene.


Sarah R. Stinnesbeck, Eberhard Frey, Jerónimo Avíles Olguín, Wolfgang Stinnesbeck, Patrick Zell, Heinrich Mallison, Arturo González González, Eugenio Aceves Núñez, Adriana Velázquez Morlet, Alejandro Terrazas Mata, Martha Benavente Sanvicente, Fabio Hering and Carmen Rojas Sandoval. 2017. Xibalbaonyx oviceps, A New Megalonychid Ground Sloth (Folivora, Xenarthra) from the Late Pleistocene of the Yucatán Peninsula, Mexico, and Its Paleobiogeographic Significance. PalZ [Paläontologische Zeitschrift]. 91(2); 245–271.   DOI: 10.1007/s12542-017-0349-5

Ancient species of giant sloth discovered in Mexico  ctv.news/M8rqjqN

Kurzfassung: Die Unterwasserhöhlen auf der nordöstlichen Halbinsel Yukatan zeigen eine artenreiche Ansammlung von Großsäugern aus dem späten Pleistozän und frühen Holozän. Hier beschreiben wir die neue Gattung und Art eines Riesenfaultiers, Xibalbaonyx oviceps (Megalonychidae, Xenarthra), aus der Zapote Doline (Cenote) in der Nähe von Puerto Morelos im mexikanischen Bundesstaat Quintana Roo. Das Exemplar unterscheidet sich signifikant von allen bisher dokumentierten Megalonychidae einschließlich derjenigen von den Großen Antillen und aus Südamerika. Das neue Taxon deutet auf eine lokale karibische Radiation von Bodenfaultieren währen des Spätpleistozäns hin, die mit der Ausbreitung der Gruppe entlang des mexikanischen Korridors übereinstimmt.

Schlüsselwörter: Bodenfaultiere Pleistozän Yukatan Halbinsel Mexiko 

---------------------------------------------------------------
روابط التحميل والمشاهدة، الروابط المباشرة للتحميل
او
شاهد هذا الفيديو القصير لطريقة التحميل البسيطة


كيف تحصل على مدونة جاهزة بآلاف المواضيع والمشاركات من هنا
شاهد قناة منتدى مدونات بلوجر جاهزة بألاف المواضيع والمشاركات على اليوتيوب لمزيد من الشرح من هنا
رابط مدونة منتدى مدونات بلوجر جاهزة بآلاف المواضيع والمشاركات في أي وقت حــــتى لو تم حذفها من هنا
شاهد صفحة منتدى مدونات بلوجر جاهزة بألاف المواضيع والمشاركات على الفيس بوك لمزيد من الشرح من هنا
تعرف على ترتيب مواضيع منتدى مدونات بلوجر جاهزة بآلاف المواضيع والمشاركات (حتى لا تختلط عليك الامور) من هنا

ملاحظة هامة: كل عمليات تنزيل، رفع، وتعديل المواضيع الجاهزة تتم بطريقة آلية، ونعتذر عن اي موضوع مخالف او مخل بالحياء مرفوع بالمدونات الجاهزة بآلاف المواضيع والمشاركات، ولكم ان تقوموا بحذف هذه المواضيع والمشاركات والطريقة بسيطة وسهلة. ــــــــــــــــــــــــــــــــــــــــــــــــــــــــــــــــــــــــــــــسلامـ.

[Mammalogy • 2018] Taxonomic Review of the Genus Cyclopes Gray, 1821 (Xenarthra: Pilosa), with the Revalidation and Description of New Species ---ScRaBBlE


silky anteater  Cyclopes didactylus

photo: Quinten Questel  commons.wikimedia.org
Miranda, Casali, Perini, et al. 2018.    DOI:  10.1093/zoolinnean/zlx079 

Abstract
The taxonomy of Cyclopes didactylus is marked by a confusing history of new names, with few or no references to types, and new subspecies without any verified geographic correspondence. Here, we review the taxonomy of the genus Cyclopes using an integrative approach that combines morphological, morphometric and molecular data. We, therefore, aim to clarify many issues concerning the taxonomy, distribution and conservation status of the valid taxa and describe new previously unrecognized species for the genus. We examined a total of 287 specimens of Cyclopes, including skins and skulls, housed in 20 natural history collections and 33 samples for molecular analyses. Based on evidence provided by molecular phylogenetics using mitochondrial and nuclear DNA, allied with coalescent species delimitation analyses, diagnostic characters of the skull, colour patterns and structures of pelage, we suggest that the genus Cyclopes comprises at least seven species. Four previous species designations are considered valid here: Cyclopes didactylus (Linnaeus, 1758); Cyclopes ida Thomas, 1900; Cyclopes catellus Thomas, 1928; and Cyclopes dorsalis (Gray, 1865). In addition, three new species are described. The results presented here have large implications for the conservation status and management practices of silky anteaters.




Family Cyclopedidae
Genus Cyclopes Gray, 1821

Cyclopes didactylus (Linnaeus, 1758)
Cyclopes ida Thomas, 1900
Cyclopes dorsalis (Gray, 1865)
Cyclopes catellus Thomas, 1928

Cyclopes thomasi sp. nov.

Etymology: The specific name honours Michael Rogers Oldfield Thomas, in recognition of his extensive contribution to mammalogy, and specifically to the taxonomy of Cyclopes.

Cyclopes rufus sp. nov.

Etymology: The specific name rufus (meaning ‘red’ in Latin) refers to the reddish tone of the dorsal coloration of this species.

Cyclopes xinguensis sp. nov.

Etymology: The specific epithet xinguensis refers to the type locality of this species in Vitória do Xingu, Pará, Brazil. Xingu is an indigenous word meaning good and clean water.

The silky anteater (Cyclopes didactylus

photo: Quinten Questel/CC 3.0/Wikimedia Commons 

Flávia R Miranda, Daniel M Casali, Fernando A Perini, Fabio A Machado and Fabrício R Santos. 2018. Taxonomic Review of the Genus Cyclopes Gray, 1821 (Xenarthra: Pilosa), with the Revalidation and Description of New Species.  Zoological Journal of the Linnean Society. zlx079.  DOI:  10.1093/zoolinnean/zlx079 
ResearchGate.net/publication/321733059_Taxonomic_review_of_the_genus_Cyclopes_Xenarthra_Pilosa_with_the_revalidation_and_description_of_new_species

Brazilian researchers uncover 6 new species of silky anteater
 eurekalert.org/e/84qs via @EurekAlert
 Cientistas brasileiros descobrem seis novas espécies de tamanduás-anões -   ciencia.estadao.com.br/noticias/geral,cientistas-brasileiros-descobrem-seis-novas-especies-de-tamanduas-anoes,70002115814  @estadao

---------------------------------------------------------------
روابط التحميل والمشاهدة، الروابط المباشرة للتحميل
او
شاهد هذا الفيديو القصير لطريقة التحميل البسيطة


كيف تحصل على مدونة جاهزة بآلاف المواضيع والمشاركات من هنا
شاهد قناة منتدى مدونات بلوجر جاهزة بألاف المواضيع والمشاركات على اليوتيوب لمزيد من الشرح من هنا
رابط مدونة منتدى مدونات بلوجر جاهزة بآلاف المواضيع والمشاركات في أي وقت حــــتى لو تم حذفها من هنا
شاهد صفحة منتدى مدونات بلوجر جاهزة بألاف المواضيع والمشاركات على الفيس بوك لمزيد من الشرح من هنا
تعرف على ترتيب مواضيع منتدى مدونات بلوجر جاهزة بآلاف المواضيع والمشاركات (حتى لا تختلط عليك الامور) من هنا

ملاحظة هامة: كل عمليات تنزيل، رفع، وتعديل المواضيع الجاهزة تتم بطريقة آلية، ونعتذر عن اي موضوع مخالف او مخل بالحياء مرفوع بالمدونات الجاهزة بآلاف المواضيع والمشاركات، ولكم ان تقوموا بحذف هذه المواضيع والمشاركات والطريقة بسيطة وسهلة. ــــــــــــــــــــــــــــــــــــــــــــــــــــــــــــــــــــــــــــــسلامـ.

[PaleoMammalogy • 2018] Neoglyptatelus uruguayensis • A New Species of Neoglyptatelus (Xenarthra, Cingulata) from the Late Miocene of Uruguay Provides New Insights on the Evolution of the Dorsal Armor in Cingulates ---ScRaBBlE


Neoglyptatelus uruguayensis 
Fernicola, Rinderknecht, Jones, Vizcaíno & Porpino, 2018

DOI: 10.5710/AMGH.02.12.2017.3150 
 twitter.com/Ameghiniana

Abstract
The genus Neoglyptatelus Carlini, Vizcaíno and Scillato-Yané has been considered a member of Glyptatelinae, a group encompassing the purportedly basal-most glyptodonts. It is up to now represented by two species from Colombia: Neoglyptatelus originalis Carlini, Vizcaíno and Scillato-Yané, from the middle Miocene (a carapace fragment, isolated osteoderms and postcranial bones), and Neoglyptatelus sincelejanus Villarroel and Clavijo, from the middle or late Miocene (a partial carapace and a caudal armor). More scarce material assigned to this genus was recovered from the late Miocene of Uruguay and Brazil. In this article, we describe a new species, Neoglyptatelus uruguayensis, from the late Miocene Camacho Formation, Uruguay, based on an almost complete carapace and several postcranial bones. We conducted a phylogenetic analysis based on 167 morphological characters (23 new ones and 144 from previous analysis) scored for 19 taxa, encompassing some of the best known glyptodontid genera, one pampathere and four armadillos (including the enigmatic genus Pachyarmatherium Downing and White). In the most parsimonious tree that was obtained, Neoglyptatelus forms a clade with Pachyarmatherium (Pachyarmatheriidae), which is the sister group of the glyptodonts + pampatheres clade; consequently, it is not a glyptodont, as previously believed. This result, together with the known stratigraphic and geographic distribution of Neoglyptatelus and Pachyarmatherium, suggests that this new cingulate clade originated in South America and that Pachyarmatherium reached North America during the Plio—Pleistocene. The carapace of Neoglyptatelus and Pachyarmatherium comprises pelvic and scapular shields overlapping each other without separate intervening transverse mobile bands, an arrangement that differentiates both genera from the remaining cingulates.

Keywords: Carapace, Movement, Pachyarmatheriidae, Glyptatelinae, Phylogeny, Caparazón, Movimiento, Pachyarmatheriidae, Glyptatelinae, Filogenia


Figure 2. Complete specimen of the holotype of Neoglyptatelus uruguayensis (MHNM 1642).
1, dorsal view; 2, lateral view; 3, life reconstruction.
Scale bar= 50 mm.

SYSTEMATIC PALEONTOLOGY 
Order CINGULATA Illiger, 1811


Family PACHYARMATHERIIDAE new rank 
Type genus. Pachyarmatherium Downing and White, 1995.

Genus NEOGLYPTATELUS Carlini, Vizcaíno, and Scillato-Yané, 1997
Type species. Neoglyptatelus originalis Carlini, Vizcaíno, and ScillatoYané, 1997

Neoglyptatelus uruguayensis sp. nov.

Derivation of name. uruguayensis; from Uruguay, to emphasize its geographic provenance.


 Juan C. Fernicola, Andrés Rinderknecht, Washington Jones, Sergio F. Vizcaíno and Kleberson Porpino. 2018. A New Species of Neoglyptatelus (Mammalia, Xenarthra, Cingulata) from the Late Miocene of Uruguay Provides New Insights on the Evolution of the Dorsal Armor in Cingulates [UNA NUEVA ESPECIE DE NEOGLYPTATELUS (MAMMALIA, XENARTHRA, CINGULATA) DEL MIOCENO TARDÍO DE URUGUAY PROPORCIONA NUEVAS PERSPECTIVAS SOBRE LA EVOLUCIÓN DEL CAPARAZÓN DORSAL EN LOS CINGULADOS]Ameghiniana. 55(3):233-252. DOI: 10.5710/AMGH.02.12.2017.3150

Resumen: El género Neoglyptatelus Carlini, Vizcaíno and Scillato-Yané ha sido considerado un miembro de los Glyptatelinae, un grupo que supuestamente incluye a los gliptodontes basales. Actualmente, está representado por dos especies halladas en Colombia: Neoglyptatelus originalis Carlini, Vizcaíno and Scillato-Yané, del Mioceno medio (fragmento de caparazón, osteodermos aislados y elementos postcraneanos) y Neoglyptatelus sincelejanus Villarroel y Clavijo del Mioceno medio o tardío (parte de un caparazón y coraza caudal). Osteodermos aislados asignados a este género fueron recuperados en el Mioceno tardío de Uruguay y Brasil. En este trabajo, nosotros describimos una nueva especie, Neoglyptatelus uruguayensis, del Mioceno tardío de la Formación Camacho, Uruguay, a base de una coraza casi completa y distintos elementos postcraneanos. Nuestro estudio filogenético se sustenta en 167 caracteres óseos (23 nuevos y 144 utilizados previamente) relevados en 19 taxones, que incluyen los géneros de gliptodontes mejor conocidos, un pampaterio y cuatro armadillos, incluyendo Pachyarmatherium Downing y White. En el árbol más parsimonioso obtenido Neoglyptatelus forma con Pachyarmatherium un clado (Pachyarmatheriidae) hermano del grupo formado por pampaterios + gliptodontes, por lo cual no es un gliptodonte como se sostenía previamente. Este resultado, junto al conocimiento estratigráfico y geográfico de Neoglyptatelus y Pachyarmatherium, sugiere que los Pachyarmatheriidae se habrían originado en América del Sur y que durante el Plio—Pleistoceno Pachyarmatherium arribó a América del Norte. El caparazón de Neoglyptatelus y Pachyarmatherium contiene un escudo escapular y otro pélvico que solapan directamente entre sí, sin mediar bandas movibles transversas; este arreglo morfológico es único entre los cingulados.

---------------------------------------------------------------
روابط التحميل والمشاهدة، الروابط المباشرة للتحميل
او
شاهد هذا الفيديو القصير لطريقة التحميل البسيطة


كيف تحصل على مدونة جاهزة بآلاف المواضيع والمشاركات من هنا
شاهد قناة منتدى مدونات بلوجر جاهزة بألاف المواضيع والمشاركات على اليوتيوب لمزيد من الشرح من هنا
رابط مدونة منتدى مدونات بلوجر جاهزة بآلاف المواضيع والمشاركات في أي وقت حــــتى لو تم حذفها من هنا
شاهد صفحة منتدى مدونات بلوجر جاهزة بألاف المواضيع والمشاركات على الفيس بوك لمزيد من الشرح من هنا
تعرف على ترتيب مواضيع منتدى مدونات بلوجر جاهزة بآلاف المواضيع والمشاركات (حتى لا تختلط عليك الامور) من هنا

ملاحظة هامة: كل عمليات تنزيل، رفع، وتعديل المواضيع الجاهزة تتم بطريقة آلية، ونعتذر عن اي موضوع مخالف او مخل بالحياء مرفوع بالمدونات الجاهزة بآلاف المواضيع والمشاركات، ولكم ان تقوموا بحذف هذه المواضيع والمشاركات والطريقة بسيطة وسهلة. ــــــــــــــــــــــــــــــــــــــــــــــــــــــــــــــــــــــــــــــسلامـ.

[PaleoMammalogy • 2018] Evolutionary Adaptation to Aquatic Lifestyle in Extinct Sloths Thalassocnus Can Lead to Systemic Alteration of Bone Structure ---ScRaBBlE


Thalassocnus carolomartini McDonald & Muizon, 2002

 Amson, Billet & de Muizon, 2018

Illustration: Oliver Demuth   twitter.com/OliverDemuth 

Abstract 
Through phenotypic plasticity, bones can change in structure and morphology, in response to physiological and biomechanical influences over the course of individual life. Changes in bones also occur in evolution as functional adaptations to the environment. In this study, we report on the evolution of bone mass increase (BMI) that occurred in the postcranium and skull of extinct aquatic sloths. Although non-pathological BMI in postcranial skeleton has been known in aquatic mammals, we here document general BMI in the skull for the first time. We present evidence of thickening of the nasal turbinates, nasal septum and cribriform plate, further thickening of the frontals, and infilling of sinus spaces by compact bone in the late and more aquatic species of the extinct sloth Thalassocnus. Systemic bone mass increase occurred among the successively more aquatic species of Thalassocnus, as an evolutionary adaptation to the lineage's changing environment. The newly documented pachyostotic turbinates appear to have conferred little or no functional advantage and are here hypothesized as a correlation with or consequence of the systemic BMI among Thalassocnus species. This could, in turn, be consistent with a genetic accommodation of a physiological adjustment to a change of environment.

Keywords: bone mass increase, evolutionary adaptation, phenotypic plasticity, physiological adjustment, Thalassocnus, turbinates




Conclusion: 
Systemic bone structure alteration, formerly known exclusively as a physiological adjustment, was here evidenced to have been retained as an evolutionary adaptation thanks to the outstandingly detailed (both in terms of geological age and anatomy) and early-stage record of a land-to-sea transition in the extinct sloth Thalassocnus. This new result is consistent with a macroevolutionary process of selection on environmentally induced variation of phenotypic plasticity [Gause, 1942; Sultan, 2017]. In other words, the systemic alteration of the highly plastic bone structure that gradually evolved among the species of Thalassocnus may represent an example of a macroevolutionary transition from a phenotypic accommodation (to an environmental change) to a genetic accommodation. In the context of the so-called extended (evolutionary) synthesis, Pigliucci [2010] points out the difficulty of uncovering such examples, which are required to corroborate the hypothesis that phenotypic plasticity has an important macroevolutionary role.

The precise mechanism causing an adjustment (over the course of an individual's life) of bone structure in response to life in water is not understood. However, one can speculate that the shift of a terrestrial animal to an aquatic environment involves an increase in exercise intensity, which was shown to induce BMI [Lieberman, 1996; Biewener & Bertram, 1994]. There does not seem to be a clear influence of swimming on the bone mass of athletes [Gómez-Bruton, et al., 2013] (but differences in other physical activities probably prevent a direct correlation assessment in humans [Gómez-Bruton, et al., 2016]). However, rats that were swim-trained during growth have a greater overall bone mineral content and bone surface than the sedentary controls [McVeigh, et al., 2010] (but bone mineral density did not differ; and see [Bourrin, et al., 1992] for the opposite effect of endurance swim training on trabecular bone). It is noteworthy, however, that swim-trained animals do not necessarily experience a greater overall exercise intensity, as they were found to voluntarily run less outside the experimental exercise than control and running groups [McVeigh, et al., 2010]. Furthermore, bone structure at locations not directly influenced by locomotion, such as the cranial vault, does not seem to have been investigated in swim-trained animals.

The lack of a similarly detailed fossil record in other ancestrally terrestrial tetrapods adapted to an aquatic lifestyle prevented drawing such a conclusion in their respective cases, but a similar process might have occurred during the evolutionary history of at least some of them. BMI is probably the most widespread lifestyle adaptation among aquatic tetrapods. This suggests that genetic accommodation of a trait subject to physiological adjustment such as bone structure alteration might have played an important role in great evolutionary transitions, of which the secondary adaptations of tetrapods to an aquatic lifestyle is an iconic example.


Eli Amson, Guillaume Billet and Christian de Muizon. 2018. Evolutionary Adaptation to Aquatic Lifestyle in Extinct Sloths Can Lead to Systemic Alteration of Bone Structure.  Proc. R. Soc. B. 285: 20180270. DOI: 10.1098/rspb.2018.0270
  
The paper about the crazy pachyosteosclerosis in the skull of the marine sloth #Thalassocnus was published this morning in @RSocPublishing Proceedings B: doi.org/10.1098/rspb.2018.0270 …, to which I contributed my art. It was a pleasure to work with authors. #PaleoArt #SciArt

---------------------------------------------------------------
روابط التحميل والمشاهدة، الروابط المباشرة للتحميل
او
شاهد هذا الفيديو القصير لطريقة التحميل البسيطة


كيف تحصل على مدونة جاهزة بآلاف المواضيع والمشاركات من هنا
شاهد قناة منتدى مدونات بلوجر جاهزة بألاف المواضيع والمشاركات على اليوتيوب لمزيد من الشرح من هنا
رابط مدونة منتدى مدونات بلوجر جاهزة بآلاف المواضيع والمشاركات في أي وقت حــــتى لو تم حذفها من هنا
شاهد صفحة منتدى مدونات بلوجر جاهزة بألاف المواضيع والمشاركات على الفيس بوك لمزيد من الشرح من هنا
تعرف على ترتيب مواضيع منتدى مدونات بلوجر جاهزة بآلاف المواضيع والمشاركات (حتى لا تختلط عليك الامور) من هنا

ملاحظة هامة: كل عمليات تنزيل، رفع، وتعديل المواضيع الجاهزة تتم بطريقة آلية، ونعتذر عن اي موضوع مخالف او مخل بالحياء مرفوع بالمدونات الجاهزة بآلاف المواضيع والمشاركات، ولكم ان تقوموا بحذف هذه المواضيع والمشاركات والطريقة بسيطة وسهلة. ــــــــــــــــــــــــــــــــــــــــــــــــــــــــــــــــــــــــــــــسلامـ.

المشاركات الشائعة