# Lake Lading, Indonesia 1,100 Year Grain Size and Geochemical Flood Data
#----------------------------------------------------------------------- 
#                World Data Service for Paleoclimatology, Boulder 
#                                  and 
#                     NOAA Paleoclimatology Program 
#             National Centers for Environmental Information (NCEI)
#----------------------------------------------------------------------- 
# Template Version 3.0
# Encoding: UTF-8
# NOTE: Please cite original publication, online resource and date accessed when using this data.
# If there is no publication information, please cite Investigator, title, online resource and date accessed.
#
# Description/Documentation lines begin with #
# Data lines have no #
#
# Online_Resource: https://www.ncdc.noaa.gov/paleo/study/33193
#      Description: NOAA Landing Page
# Online_Resource: https://www1.ncdc.noaa.gov/pub/data/paleo/paleolimnology/asia/indonesia/lading2019magsus.txt
#      Description: NOAA location of the template
#
# Original_Source_URL:  
#       Description:
#
# Data_Type: Paleolimnology
#
# Dataset_DOI:
#
# Parameter_Keywords: physical properties, geochemistry
#---------------------------------------
# Contribution_Date
#    Date: 2021-04-02
#---------------------------------------
# File_Last_Modified_Date
#    Date: 2021-04-02
#---------------------------------------
# Title
#    Study_Name: Lake Lading, Indonesia 1,100 Year Grain Size and Geochemical Flood Data
#---------------------------------------
# Investigators
#      Investigators: Rodysill, J.R.; Russell, J.M.; Vuille, M.; Dee, S.; Lunghino, B.; Bijaksana, S.
#---------------------------------------
# Description_Notes_and_Keywords
#        Description: Lake Lading, Indonesia sediment grain size and geochemistry interpreted to reflect a flood history for the past 1,100 years.
#         Provided Keywords: flood, precipitation, Pacific Ocean, El Niņo-Southern Oscillation, La Niņa
#---------------------------------------
# Publication
# Authors: Jessica R. Rodysill, James M. Russell, Mathias Vuille, Sylvia Dee, Brent Lunghino, Satria Bijaksana
# Published_Date_or_Year: 2019-12-01
# Published_Title: La Niņa-driven flooding in the Indo-Pacific warm pool during the past millennium
# Journal_Name: Quaternary Science Reviews
# Volume: 225
# Edition: 106020
# Issue: 
# Pages: 
# Report_Number: 
# DOI: 10.1016/j.quascirev.2019.106020
# Online_Resource: https://www.sciencedirect.com/science/article/pii/S0277379119306845
# Full_Citation: 
# Abstract: Extreme precipitation events are one of the most consequential components of climate change for society. The El Niņo-Southern Oscillation (ENSO) is the dominant mode of precipitation variability in the tropics and causes severe flooding and drought in many socioeconomically vulnerable regions. It remains unclear how tropical rainfall extremes and ENSO are changing in response to anthropogenic forcing, demanding that we investigate the relationships between precipitation, ENSO, and external forcing in the past. Lake sediment records have provided benchmark records of extreme flood events from the eastern tropical Pacific, where paleofloods have been interpreted to reflect El Niņo events during the last millennium. However, the connections between flooding and ENSO variability in this region are uncertain, and the eastern Pacific can only capture precipitation events driven by El Niņo, not La Niņa. Thus, it is unclear how the ENSO system and tropical rainfall extremes have changed in the recent past. Here, we reconstruct flood events during the past millennium using a lake sediment record from East Java, Indonesia, which can provide insight into flooding driven by La Niņa. We detect flood frequency variations in the western tropical Pacific that are highly coherent with records from the eastern part of the basin over the past millennium. Our findings demonstrate that heavy rainfall and flooding occurs more frequently on both sides of the tropical Pacific during periods of warmer Northern Hemisphere mean temperatures, implying that ENSO-driven rainfall extremes could intensify in the near future.
#---------------------------------------
# Funding_Agency
#    Funding_Agency_Name: National Oceanic and Atmospheric Administration Climate Change Data and Detection program
#    Grant: NA09OAR4310090
#---------------------------------------
# Funding_Agency
#    Funding_Agency_Name: National Science Foundation
#    Grant: 0902845
#---------------------------------------
# Funding_Agency
#    Funding_Agency_Name: National Geographic Society
#    Grant: 8083-06
#---------------------------------------
# Site_Information
# Site_Name: Lake Lading
# Location: Ocean>Indian Ocean>Indonesia
# Northernmost_Latitude: -8.008833
# Southernmost_Latitude: -8.008833
# Easternmost_Longitude: 113.3125
# Westernmost_Longitude: 113.3125
# Elevation: 324
#---------------------------------------
# Data_Collection
#   Collection_Name: LAD10MagSus
#   First_Year: 888
#   Last_Year: 2007
#   Time_Unit: AD
#   Core_Length: 5.7
#   Notes: A surface drive was collected in 2010 and extruded in the field. Only the top 2 cm are used in the composite record. This core is named LAD10. The age model has been updated since the 2013 QSR publication on the same core.
#---------------------------------------
# Chronology_Information 
# Chronology: 
# 
# Core ID	Sediment core identification	
# Cumulative sediment depth (cm)	Composite sediment depth in centimeters	
# Cumulative sediment depth (cm) with sand beds and ashes removed	Composite sediment depth in centimeters after removing sand and volcanic ash beds	
# Lab code	Lab sample code	
# Type	Type of age information (14C: radiocarbon, 210Pb: lead-210 activity, Core top: date of surface core collection and extrusion in the field)	
# Material Dated	Type of material that was dated	
# 14C age (years B1950)	radiocarbon years before 1950 AD	
# 14C age error (years)	radiocarbon year error in years	
# calibrated date (year AD)	date in Year AD calculated in Bacon v. 2.2 using the IntCal13 calibration.	
# min date (year AD)	youngest date in year AD of calibrated date range. For 210Pb ages, the range is estimated from analytical uncertainty of 210Pb activities. For 14C ages, the range is the 95% confidence inteval calculated in Bacon v. 2.2 using the IntCal13 calibration.	
# max date (year AD)	oldest date in year AD of calibrated date range. For 210Pb ages, the range is estimated from analytical uncertainty of 210Pb activities. For 14C ages, the range is the 95% confidence inteval calculated in Bacon v. 2.2 using the IntCal13 calibration.	
# 210Po Total Activity (DPM/g)	Total activity of 210Po after accounting for detector background 210Po activity and 209Po spike standard blank in DPM/g	
# 210Po error +/- 1 S.D. (DPM/g) 	1 standard deviation error of 210Po total activity calculated from analytical uncertainty	
# 210Po Unsupported Activity (DPM/g)	Total unsupported activity of 210Po in DPM/g after subtracting estimated supported 210Po activity estimated from 226Ra (0.48 DPM/g) measured on combined residual samples 	
# excluded	sample was excluded from the age model (YES/NO)	
# 
# Core ID	Cumulative sediment depth (cm)	Cumulative sediment depth (cm) with sand beds and ashes removed	Lab code	Type	Material Dated	14C age (years B1950)	14C age error (years)	calibrated date (year AD)	min date (year AD)	max date (year AD)	210Po Total Activity (DPM/g)	210Po error +/- 1 S.D. (DPM/g) 	210Po Unsupported Activity (DPM/g)	excluded	
# LAD10	0	0	NaN  Core top	sediment/water interface	NaN	NaN	2010.541667	2010.551667	2010.531667	NaN	NaN	NaN	NO	
# LAD08	3	3	NaN  210Pb	Bulk sediment	NaN	NaN	2006.51273036687	2006.64010500737	2006.38535572637	11.8072528529793	0.333341355484555	11.3272528529793	NO	
# LAD08	14	14	NaN  210Pb	Bulk sediment	NaN	NaN	1996.40125994132	1996.93099605445	1995.87152382819	13.5909711012325	0.390587497684822	13.1109711012325	NO	
# LAD08	25	25	NaN  210Pb	Bulk sediment	NaN	NaN	1985.29765722716	1986.73843644882	1983.85687800549	7.29642447670746	0.339362965063075	6.81642447670746	NO	
# LAD08	36.5	33.5	NaN  210Pb	Bulk sediment	NaN	NaN	1972.5048400993	1975.36105664813	1969.64862355048	6.63061008728753	0.247041758729062	6.15061008728753	NO	
# LAD08	48.5	45.5	NaN  210Pb	Bulk sediment	NaN	NaN	1961.15991608663	1966.37331383356	1955.9465183397	3.4760792126746	0.200086767926601	2.9960792126746	NO	
# LAD08	59.5	56.5	NaN  210Pb	Bulk sediment	NaN	NaN	1954.15096051654	1961.54747346652	1946.75444756655	2.54549475480694	0.159210914688057	2.06549475480694	NO	
# LAD08	71	65	NaN  210Pb	Bulk sediment	NaN	NaN	1946.25103687904	1956.85651551825	1935.64555823983	3.06953760172044	0.168333341223874	2.58953760172044	NO	
# LAD08	82.5	76.5	NaN  210Pb	Bulk sediment	NaN	NaN	1936.61955973108	1953.27386997749	1919.96524948466	2.40127987404064	0.14098508507287	1.92127987404064	NO	
# LAD08	178.4	131.6	AA37293	14C	Plant/wood	236	30	1714	1744	1684	NaN  NaN	NaN	NO	
# LAD08	252.2	NaN  OS-79520	14C	Bulk sediment	620	25	NaN	NaN	NaN	NaN	NaN	NaN	YES	
# LAD08	326.7	227.7	AA37294	14C	Plant/wood	412	40	1538	1578	1498	NaN  NaN	NaN	NO	
# LAD08	371.1	249.7	OS-77312	14C	Plant/wood	690	25	1260	1285	1235	NaN  NaN	NaN	NO	
# LAD08	375.6	250.7	AA37295	14C	Plant/wood	692	36	1258	1294	1222	NaN  NaN	NaN	NO	
# LAD08	433.2	284.6	Beta-228346	14C	plant/wood	830	40	1120	1160	1080	NaN  NaN	NaN	NO	
# LAD08	565.8	341.9	OS-77313	14C	Plant/wood	1190	25	760	785	735	NaN  NaN	NaN	NO	
# 
#---------------------------------------
# Variables
# Data variables follow that are preceded by "##" in columns one and two.
# Variables list, one per line, shortname-tab-longname components (9 components: what, material, error, units, seasonality, archive, detail, method, C or N for Character or Numeric data)
# 
## depth	depth,,,centimeter,,paleolimnology,,,N,composite core depth
## YearCE	age,,,year Common Era,,paleolimnology,,,N,weighted mean date of each sample measurement derived using Bacon v. 2.2 and the IntCal13 radiocarbon calibration curve
## MagSusc	magnetic susceptibility,sediment,,dimensionless (SI system),,paleolimnology,,,N,Magnetic Susceptibility *10^(-5) SI
#------------------------
# Data:
# Data lines follow (have no #)
# Data line format - tab-delimited text, variable short name as header
# Missing_Values: 
depth	YearCE	MagSusc
2.5	2007.15	161.18196
3.5	2005.85	131.3632974
4.5	2004.5	164.4055992
5.5	2003.4	191.9408507
6.5	2002.6	171.3901508
7.5	2001.8	203.8951794
8.5	2000.95	161.5849149
9.5	2000.1	247.4143086
10.5	1999.3	268.7709183
11.5	1998.5	338.482116
12.5	1997.65	239.4895289
13.5	1996.8	212
14.5	1995.95	224
15.5	1995	242
16.5	1994	242
17.5	1993	255
18.5	1992	259
19.5	1991	250
20.5	1989.95	266
21.5	1988.85	270
22.5	1987.8	301
23.5	1986.75	282
24.5	1985.7	258
25.5	1984.5	272
26.5	1983.1	271
27.5	1981.75	360
28.5	1981.083333	666
29.5	1981.05	607
30.5	1981.016667	227
31.5	1980.35	217
32.5	1979.05	237
33.5	1977.8	262
34.5	1976.5	237
35.5	1975.15	185
36.5	1973.85	180
37.5	1972.55	237
38.5	1971.4	213
39.5	1970.4	204
40.5	1969.4	231
41.5	1968.4	233
42.5	1967.4	213
43.5	1966.4	190
44.5	1965.4	186
45.5	1964.4	220
46.5	1963.4	231
47.5	1962.4	164
48.5	1961.35	143
49.5	1960.3	142
50.5	1959.25	131
51.5	1958.15	119
52.5	1957.05	66
53.5	1956	79
54.5	1955	32
55.5	1954	37
56.5	1953	54
57.5	1951.95	79
58.5	1950.8	169
59.5	1949.65	37
60.5	1948.5	35
61.5	1947.3	17
62.5	1946.1	32
63.5	1944.8	25
64.5	1943.45	15
65.5	1942.1	316
66.5	1941.383333	169
67.5	1941.35	137
68.5	1941.316667	186
69.5	1940.65	39
70.5	1939.3	67
71.5	1937.7	45
72.5	1935.85	204
73.5	1933.95	172
74.5	1932.05	60
75.5	1930.2	35
76.5	1928.25	33
77.5	1926.25	82
78.5	1924.35	66
79.5	1922.45	67
80.5	1920.55	77
81.5	1918.35	120
82.5	1915.85	151
83.5	1913.35	149
84.5	1910.8	131
85.5	1908.25	80
86.5	1905.45	106
87.5	1902.35	143
88.5	1899.25	103
89.5	1896.15	80
90.5	1894.575	26
91.1	1894.545	161
92.1	1894.21	170
93.1	1891.3	504
94.1	1888.29	657
95.1	1885.21	488
96.1	1882.3	275
97.1	1879.31	257
98.1	1876.39	316
99.1	1873.28	101
100.1	1870.09	84
101.1	1866.98	109
102.1	1864.095	87
103.1	1864.045	207
104.1	1863.7	875
105.1	1860.9975	130
106.1	1860.9725	186
107.1	1860.9475	174
108.1	1860.9225	152
109.1	1860.6	86
110.1	1857.59	336
111.1	1854.49	96
112.1	1851.39	56
113.1	1848.29	49
114.1	1845.19	148
115.1	1842.396667	156
116.1	1842.363333	205
117.1	1842.33	425
118.1	1842.01	653
119.1	1839.09	449
120.1	1835.99	507
121.1	1832.89	607
122.1	1830.096667	546
123.1	1830.063333	532
124.1	1830.03	1163
125.1	1829.7	508
126.1	1826.998571	101
127.1	1826.984286	153
128.1	1826.97	300
129.1	1826.955714	776
130.1	1826.941429	361
131.1	1826.927143	248
132.1	1826.912857	367
133.1	1826.6	498
134.1	1823.898333	610
135.1	1823.881667	432
136.1	1823.865	169
137.1	1823.848333	489
138.1	1823.831667	250
139.1	1823.815	445
140.1	1823.5	749
141.1	1820.798	325
142.1	1820.778	646
143.1	1820.758	471
144.1	1820.738	650
145.1	1820.718	670
146.1	1820.39	383
147.1	1817.59	206
148.1	1817.2	293
149.1	1814.496667	378
150.1	1814.463333	304
151.1	1814.43	192
152.1	1814.11	339
153.1	1811.19	776
154.1	1808.09	290
155.1	1805	178
156.1	1802.296667	65
157.1	1802.263333	274
158.1	1802.23	950
159.1	1801.9	49
160.1	1798.89	51
161.1	1795.79	117
162.1	1792.995	68
163.1	1792.945	153
164.1	1792.6	40
165.1	1789.58	44
166.1	1786.39	45
167.1	1783.29	49
168.1	1780.19	68
169.1	1777.09	77
170.1	1773.99	75
171.1	1770.88	75
172.1	1767.7	73
173.1	1764.7	73
174.1	1761.69	76
175.1	1758.61	61
176.1	1755.71	237
176.1	1755.71	239
177.1	1752.79	48
178.1	1749.68	61
179.1	1748.071667	162
180.1	1748.055	246
181.1	1748.038333	222
182.1	1748.021667	301
183.1	1748.005	430
184.1	1747.988333	511
185.1	1746.49	528
186.1	1743.38	206
187.1	1740.2	55
188.1	1737.16	66
189.1	1735.435	95
190.1	1735.385	318
191.1	1733.77	250
192.1	1730.46	77
193.1	1727.06	62
194.1	1723.67	89
195.1	1720.36	70
196.1	1716.97	89
197.1	1713.67	341
198.1	1710.38	453
199.1	1707.17	372
200.1	1703.86	176
201.1	1700.45	52
202.1	1696.97	112
203.1	1693.66	69
204.1	1690.28	73
205.1	1687.06	240
206.1	1683.66	207
207.1	1680.27	30
208.1	1676.97	41
209.1	1673.67	77
210.1	1670.36	45
211.1	1666.95	61
212.1	1663.46	100
213.1	1660.06	29
214.1	1656.65	200
215.1	1654.85	43
216.1	1653.17	54
217.1	1649.86	71
218.1	1646.46	223
219.1	1643.07	90
220.1	1639.76	94
221.1	1638.043333	326
222.1	1638.01	119
223.1	1637.976667	80
224.1	1636.36	244
225.1	1632.96	144
226.1	1629.57	396
227.1	1626.27	41
228.1	1622.96	79
229.1	1619.58	75
230.1	1616.35	53
231.1	1612.88	55
232.1	1611.2675	62
233.1	1611.2425	198
234.1	1611.2175	139
235.1	1611.1925	65
236.1	1609.66	208
237.1	1606.27	197
238.1	1602.97	240
240.7	1599.3025	158
241.7	1599.2775	371
242.7	1599.2525	1038
243.7	1597.6525	206
244.7	1596.023333	137
245.7	1595.99	48
246.7	1595.956667	274
247.7	1594.3525	193
248.7	1591.16	40
249.7	1587.89	108
250.7	1584.66	194
251.7	1581.46	410
252.7	1578.26	112
253.7	1575.06	230
254.7	1571.86	403
255.7	1571.851525	1011
256.7	1571.843051	985
257.7	1571.834576	449
258.7	1571.826102	307
259.7	1571.817627	432
260.7	1571.809153	480
261.7	1571.800678	176
262.7	1571.792203	165
262.7	1571.792203	211
263.7	1571.783729	204
264.7	1571.775254	263
265.7	1571.76678	89
266.7	1571.186667	348
267.7	1567.84	371
268.7	1564.53	440
269.7	1561.14	596
270.7	1557.92	341
271.7	1554.54	278
272.7	1551.05	213
273.7	1547.64	244
274.7	1544.24	249
275.7	1540.84	75
276.7	1537.44	49
277.7	1534.13	41
278.7	1530.74	52
279.7	1527.43	216
280.7	1524.13	279
281.7	1520.74	96
282.7	1517.43	58
283.7	1514.22	312
284.7	1510.93	102
285.7	1508.353333	300
286.7	1508.32	526
287.7	1508.286667	224
288.7	1507.686667	100
289.7	1504.43	147
290.7	1501.31	301
291.7	1498.686	281
292.7	1498.666	285
293.7	1498.646	227
294.7	1498.626	412
295.7	1498.606	217
296.7	1497.996667	1
297.7	1494.73	213
298.7	1491.43	195
299.7	1488.13	270
300.7	1484.74	251
301.7	1482.016	104
302.7	1481.996	252
303.7	1481.976	228
304.7	1481.956	475
305.7	1481.936	131
306.7	1481.306667	30
307.7	1477.94	40
308.7	1474.54	29
309.7	1471.14	34
310.7	1467.74	45
311.7	1464.43	66
312.7	1460.95	49
313.7	1457.63	270
314.7	1454.15	409
315.7	1450.83	23
316.7	1447.35	70
317.7	1443.94	56
318.7	1440.45	52
319.7	1437.645	202
320.7	1437.62	382
321.7	1437.595	410
322.7	1437.57	130
323.7	1436.916667	137
324.7	1433.72	271
325.7	1430.43	391
326.7	1427.04	59
327.7	1423.73	369
328.7	1420.34	439
329.7	1415.5	68
330.7	1410.41	222
331.7	1406.39	384
332.7	1406.34	187
333.7	1405.366667	45
334.7	1400.4	67
335.7	1395.4	157
336.7	1390.13	220
337.7	1384.83	235
338.7	1379.53	356
339.7	1375.28697	479
340.7	1375.271818	541
341.7	1375.256667	253
342.7	1375.241515	359
342.7	1375.241515	736
343.7	1375.226364	533
344.7	1375.211212	560
345.7	1375.196061	220
346.7	1372.11	220
347.7	1366.87	253
348.7	1361.77	263
349.7	1356.7	295
350.7	1351.7	385
351.7	1349.688	678
352.7	1349.668	620
353.7	1349.648	903
354.7	1349.628	267
355.7	1349.608	953
356.7	1346.7	821
357.7	1341.73	771
358.7	1336.8	405
359.7	1331.77	591
360.7	1326.7	690
361.7	1324.688	1215
362.7	1324.668	1767
363.7	1324.648	309
364.7	1324.628	190
365.7	1324.608	258
366.7	1321.67	253
367.7	1319.618	352
368.7	1319.598	561
369.7	1319.578	386
370.7	1319.558	606
371.7	1319.538	38
372.7	1316.81	132
373.7	1315.07	659
374.7	1315.036667	982
375.7	1315.003333	159
376.7	1312.51	205
377.7	1308.18	238
378.7	1303.78	350
379.7	1299.41	727
380.7	1295.05	447
381.7	1293.19	252
382.7	1290.55	371
383.7	1286.08	321
384.7	1284.3	362
385.7	1284.266667	518
386.7	1284.233333	569
387.7	1281.68	485
388.7	1279.89	432
389.7	1279.84	341
390.7	1277.34	348
391.7	1275.63	595
392.7	1275.58	436
393.7	1273.05	345
394.7	1268.58	137
395.7	1264.18	361
396.7	1259.81	460
397.7	1255.51	482
398.7	1253.76	400
399.7	1253.71	585
400.7	1251.15	264
401.7	1249.32	638
402.7	1249.27	376
403.7	1246.62	279
404.7	1242.02	224
405.7	1237.42	217
406.7	1232.88	268
407.7	1231.105	545
408.7	1231.08	438
409.7	1231.055	489
410.7	1231.03	411
411.7	1228.48	111
412.7	1224.05	241
413.7	1219.55	218
414.7	1215.05	172
415.7	1213.23	663
416.7	1213.196667	752
417.7	1213.163333	138
418.7	1210.58	123
419.7	1206.21	256
420.7	1201.88	172
421.7	1197.51	108
422.7	1193.21	132
423.7	1191.43	430
424.7	1188.91	141
425.7	1184.61	433
426.7	1180.22	472
427.7	1175.65	588
428.7	1173.83	548
429.7	1173.796667	938
430.7	1173.763333	117
431.7	1171.12	79
432.7	1166.55	80
433.7	1161.93	37
434.3	1158.99	222
435.3	1156.532857	202
436.3	1156.518571	194
437.3	1156.504286	210
438.3	1156.49	234
439.3	1156.475714	212
440.3	1156.461429	314
441.3	1156.447143	372
442.3	1154.073333	349
443.3	1149.19	381
444.3	1144.11	394
445.3	1139.28	297
446.3	1133.85	220
447.3	1128.35	219
448.3	1122.85	338
449.3	1117.44	282
450.3	1112.04	143
452.3	1109.31	154
453.3	1109.29	94
454.3	1109.27	29
455.3	1109.25	13
456.3	1106.623333	62
457.3	1103.934444	802
458.3	1103.923333	1172
459.3	1103.912222	1017
460.3	1103.901111	1321
461.3	1103.89	1254
462.3	1103.878889	789
463.3	1103.867778	1434
464.3	1103.856667	947
465.3	1103.845556	1205
466.3	1101.223333	1390
467.3	1098.5275	746
468.3	1098.5025	47
468.3	1098.5025	4
469.3	1098.4775	33
470.3	1098.4525	53
471.3	1095.823333	153
472.3	1090.44	35
473.3	1085.04	79
474.3	1079.55	59
475.3	1076.71	49
476.3	1073.943333	439
477.3	1068.54	49
478.3	1065.75	182
479.3	1063.033333	308
480.3	1060.275	131
481.3	1060.225	168
482.3	1057.533333	406
483.3	1054.815	560
484.3	1054.765	719
485.3	1052.123333	156
486.3	1046.74	47
487.3	1041.25	60
488.3	1035.84	193
489.3	1030.35	183
490.3	1024.85	56
491.3	1019.26	95
492.3	1013.57	86
493.3	1010.735	148
494.3	1010.685	396
495.3	1007.943333	447
496.3	1002.36	19
497.3	996.94	72
498.3	994.175	102
499.3	994.125	668
500.3	991.4333333	1102
501.3	985.95	70
502.3	980.54	289
503.3	975.05	209
505.3	972.29	321
506.3	972.2566667	451
507.3	969.6233333	482
507.3	969.6233333	386
508.3	964.24	80
509.3	962.6175265	84
510.3	962.6139929	78
511.3	962.6104594	57
512.3	962.6069258	67
513.3	962.6033922	114
514.3	962.5998587	129
515.3	962.5963251	106
516.3	962.5927915	29
517.3	962.589258	58
518.3	962.5857244	216
519.3	962.5821908	253
520.3	962.5786572	53
521.3	962.5751237	70
522.3	962.5715901	102
523.3	962.5680565	41
524.3	962.564523	128
525.3	962.5609894	163
526.3	962.5574558	97
527.3	962.5539223	130
528.3	962.5503887	82
529.3	962.5468551	83
530.3	962.5433216	46
531.3	962.539788	75
532.3	962.5362544	139
533.3	962.5327209	214
534.3	962.5291873	142
535.3	962.5256537	258
536.3	962.5221201	148
537.3	960.41	103
538.3	955.06	876
539.3	949.66	795
540.3	944.14	494
541.3	941.325	856
542.3	941.275	454
543.3	938.5555556	241
544.3	933.04	213
545.3	930.2328571	260
546.3	930.2185714	362
547.3	930.2042857	385
548.3	930.19	413
549.3	930.1757143	453
550.3	930.1614286	601
551.3	930.1471429	357
552.3	927.3955556	141
553.3	924.59	139
554.3	921.7955556	162
555.3	916.24	26
556.3	910.7	50
557.3	905.2	112
558.3	902.4375	527
559.3	902.4125	439
560.3	902.3875	1138
561.3	902.3625	196
562.3	899.6555556	308
563.3	896.935	546
564.3	896.885	539
565.3	894.2155556	899
566.3	891.5333333	449
567.3	891.5	717
568.3	891.4666667	54
569.3	888.7555556	31