Biostratigraphy and Mass Extinction Pattern across the Cretaceous / Paleogene Boundary , Northern Alborz , Iran

High resolution sampling across the Cretaceous/Paleogene boundary (K/Pg) at the Galanderud section in northern Iran provides the most expanded and continuous section for us to consider biostratigraphy and the mass extinction pattern of Cretaceous planktic foraminifera. Based on planktic foraminifera, four biozones and five sub-biozones have been identified across the K/Pg boundary. These biozones include the Abathomphalus mayaroensis Biozone (Plummerita hantkeninoides subbiozone), the Guembelitria cretacea Biozone (including two sub-biozones: the Hedbergella holmdelensis and the Parvularugoglobigerina longiapertura), the Parvularugoglobigerina eugubina Biozone (including two subbiozones: the Parvularugoglobigerina Sabina and the Eoglobigerina simplicissima) and finely the Parasubbotina pseudobulloides Biozone. Planktic foraminiferal extinction occurred over a brief period, with 3% of the species disappearing in the late Maastrichtian, and 72% of the species becaming extinct at the K/Pg boundary. About 25% of the species survived into the early Danian. Extinction of 73% of the species at the K/Pg boundary is very compatible with the effect of a large asteroid impact.


Introduction
The Cretaceous-Paleogene boundary (K/Pg) is one of the major crises in the history of life on Earth.Planktonic foraminifera suffered the most dramatic extinctions among marine organisms across the Cretaceous-Paleogene boundary.The proposed causes of this mass extinction are widely considered as a combination of degassing of the Deccan Traps and a bolide impact in Chicxulub, Mexico [1].Alvarez and his colleagues [2] suggested the bolide impact theory as the cause for the mass extinctions at Cretaceous-Paleogene boundary.This meteorite impact is evidenced by anomalous abundance of Ir, microtektites, shocked quartz and Ni-rich spinels in K/Pg boundary deposits.Also, Courtillot [3] and Keller et al., 2011 pointing out the key role of volcanic eruptions in mass extinction at the end of the Cretaceous.The planktonic foraminifera mass extinction at the K-Pg boundary event has been pointed out by many specialists [4][5][6].The aim of this paper is to determine the biostratigraphy and model the extinction pattern of planktonic foraminiferal species in the Galanderud section.

Location and Lithology
The Alborz Mountain system of northern Iran, extends in a sinuous manner for about 2000 km from the Lesser Caucasus of Armenia and Azerbaijan Republics of the former Soviet Union to the Paropamisus Mountains of northern Afghanistan in the northeastern corner of Iran east [7].
The section that was sampled is located next to a limestone mine, about 25 km south of the city of Royan and in the southwest corner of Noor province.An exposure of 7 m spanning the K/Pg boundary was sampled at 5 -10 cm intervals, except for the boundary clay where samples were taken at 2 cm intervals.This study includes about 2 m of Maastrichtian and 5 m of Danian sediment.Sediments of the upper most Maastrichtian consist of brown to dark brown marls, The K/Pg transition is marked by a lithological change from brown marl at end of Maastrichtian to a clay layer preceding a chalk layer at base of Danian.
were analyzed for study.The samples were processed for foraminiferal analysis by standard micropaleontological techniques.They were disaggregated in tap water and washed through a 120 µm and 53 µm sieve and dried at 50˚C.Preservation of the planktic Foraminifera were good to very good.In order to prevent the Signor and Lipps effect, a blind test at K/Pg boundary was used to precisely examine samples for rare species in several sieves [8].

Biostratigraphy
The Maastrichtian and Danian foraminiferal biozonation used in this paper is based upon studies conducted in middle and lower latitudes.The biozonation of Keller and colleagues [9] and Arenillas and colleagues [10,11] is used for this study with some changes (Figures 1 and  2).We have identified a high-resolution planktic foraminiferal zonation and have described four biozones and five subbiozones across the K/Pg boundary in this section.These biozones include: the Abathomphalus mayaroensis Biozone (Plummerita hantkeninoides subbiozone), the Guembelitria cretacea Biozone (including two sub-biozones: the Hedbergella holmdelensis and the Parvularugoglobigerina longiapertura), the Parvularugoglobigerina eugubina Biozone (including two subbiozones: (the Parvularugoglobigerina Sabina and the Eoglobigerina simplicissima) and the Parasubbotina pseudobulloides Biozone.

Abathomphalus mayaroensis Zone
This zone initially introduced by Bronnimann [12] was defined by great diversity of the nominate taxon.This species is rare or absent in shallow water and at high latitudes appeared in the Campanian, but disappears prior to the K/Pg boundary [8].
Based on Keller [9] the A. mayaroensis zone is subdivided into four subzones in stratigraphic order: the Racemiguembelina fructicosa, the Pseudoguembelina hariaensis, the P. palpebra and the Plummerita hantkeninoides subzones.Also, Keller (1995) initially proposed the Plummerita hantkeninoides Zone for the uppermost Maastrichtian at El Kef, Tunisia and Agost, Spain.Keller definded this subzone as the total range of nominate taxon to determine the uppermost Maastrichtian.At the current section, P. hantkeninoides spans the top 2 m of the Maastrichtian.

Guembelitria cretacea Biozone
This biozone was first defined by Smit 1982 [13].He introduced the Guembelitria cretacea Zone as the interval between the last occurrence of Cretaceous species at the Cretaceous-Paleogene boundary and the first occurrence of Parvularugoglobigerina eugubina Arenillas et It is equivalent to the P0 Zone of [13,15].The second sub-biozone in the Guembelitria cretacea was defined by first occurrences of Pv. longiapertura and Pv.Eugubina [14].In the Galanderud section, the Guembelitria cretacea Zone is characterized by high relative abundance of Guembelitria spp.It is ~60 cm thick.The first subzone is ~170 cm thick and the second subzone is ~190 cm thick.
The Eoglobigerina trivialis Subzone includes the bio-stratigraphical interval from the first o nce of Parasubbotina pseudobulloides to first occ ce of Subbotina triloculinoides; and the Subbotina tr ulinoides Subzone, which is the interval from the firs curence of the S. triloculinoides to the first occurenc f Globanomalina compressa.In this section, we cou ot determine a subzone.
This zone is ~70 cm thick.

The Mass Extinction Pattern
Smit 1982 indicated that dominated sp of the upper Maastrichtian planktic foraminifera ha been recorded in the lower most Danian all are considered to be reworked, except for one species Guem cretacea.

Olsson and colleagues (1999) consid
Hedbergella holmdelensis, H. monmouthensis and retacea, to be survivors into the lower Danian.Base these papers, this extinction was a catastrophic mass nction and resulting from an exterrestrial impact.O e other hand, Gerta Keller and colleagues (1989) p nted different data.At these data, they showed grad pattern across the boundary and they indicate Cretaceous species survive many thousands in Paleocene.
In order to describe the mass exti n pattern the Galanderud section was chosen.Spec anges and extinction patterns are illustrated in acro transition, at Galanderud section in (Figure 3).Based on detail study, we identified 61 C eous species.Based on our data gain following data: The upper Maastrichtian, planktonic foraminifera are dominated by small biserial species (heterohelicidsand and pseudguembelinids), triserial species an all morphology trochospiral (hedbergellids) are ra n this section.Also, globigerinelloid and globotruncanellid species are also common.Rugoso trochospiral spec complex biserial and multiserial (rugoglobigerinids, pseudotextularids

Comparison with Other Section
There is still the debate regarding the planktic foraminiferal extinction model at the K/Pg boundary.Differences are the result of various selection the methodologies, differences in obtaining the data, and diverse interpretations of the data (Figure 3).
The mass extinction pattern indic at the K/Pg boundary of the Galanderud section ates that (44: 72%) species -For example: In became extinct.This extinction at K/Pg boundary is sim ilar to many sections around the world.Spanish sections (Agost: 46 extinct species (70%), at Caravaca: 46 extinct species (71%)) [17].
And in Tunisian sections (El Kef: 46 extinct species ( 45 extinct species (37%), species in n constitutes the largest and most dramatic extinction event in the history of planktic foraminifera.This data from this extinction event are very compatible with the catastrophic effects that might have been caused by the impact of a large extraterrestrial body.

Conclusion
Planktic foraminifera were very abundant and diversified during the late Cretaceous at the Galanderud section.Based on the planktic foraminifera data four biozones and five sub-biozones have been identified across the K/Pg boundary.Late Maastrichtian planktic foraminifera were much diversified and some species reached a very large size.These assemblages, that constituted about 73% of the species present, suddenly became extinct at the /Pg boundary.This pattern of catastrophic mass extinc-K tio

4. 3 .
Parvularugoglobigerina eugubina BiozoneLuterbacher and PremoliSilva (1964) firstly introduced this biozone and it was defined as total range of the nominate taxon.This biozone was divided in two Subzones byArenillas et al., (2004)  that include of Parvularugoglobigerina sabina Subzone, which is the interval ranging from the first occurence of Parvularugoglobigerina eugubina to the first occurence of Eoglobigerina simplicissima; and Eoglobigerina simplicissima Subzone, which is the interval between the first occurence of the nominal taxon and the first occurence of Parasubbotina pseudobulloides.

Figure 3 .
Figure 3. Comparative number and percent of extinct species across the K/Pg boundary and the Cretaceous survivors at the wer Danian interval.lo