Revision 49434
Added by Sandro La Bruzzo over 6 years ago
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<dateofacceptance>2017-01-20</dateofacceptance> |
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<description>Land surface reflectance is not isotropic. It varies with the |
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observation geometry that is defined by the sun, view zenith angles, and the |
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relative azimuth. In addition, the reflectance is linearly polarized. The |
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reflectance anisotropy is quantified by the bidirectional reflectance |
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distribution function (BRDF), while its polarization properties are defined by |
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the bidirectional polarization distribution function (BPDF). The POLDER |
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radiometer that flew onboard the PARASOL microsatellite remains the only space |
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instrument that measured numerous samples of the BRDF and BPDF of Earth targets. |
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<br><br> Here, we describe a database of representative BRDFs and BPDFs |
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derived from the POLDER measurements. From the huge number of data acquired by |
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the spaceborne instrument over a period of 7 years, we selected a set of targets |
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with high-quality observations. The selection aimed for a large number of |
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observations, free of significant cloud or aerosol contamination, acquired in |
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diverse observation geometries with a focus on the backscatter direction that |
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shows the specific hot spot signature. The targets are sorted according to the |
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16-class International Geosphere-Biosphere Programme (IGBP) land cover |
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classification system, and the target selection aims at a spatial |
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representativeness within the class. The database thus provides a set of |
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high-quality BRDF and BPDF samples that can be used to assess the typical |
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variability of natural surface reflectances or to evaluate models. It is |
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available freely from the PANGAEA website (<a |
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href="http://dx.doi.org/10.1594/PANGAEA.864090" |
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target="_blank">doi:10.1594/PANGAEA.864090</a>). <br><br> In addition |
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to the database, we provide a visualization and analysis tool based on the |
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Interactive Data Language (IDL). It allows an interactive analysis of the |
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measurements and a comparison against various BRDF and BPDF analytical models. |
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The present paper describes the input data, the selection principles, the |
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database format, and the analysis tool</description> |
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<source>eISSN: 1866-3516</source> |
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schemename="dnet:dataCite_title">ZENODO: A New Innovative Service for Sharing |
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All Research Outputs |
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schemename="dnet:dataCite_title">A BRDF–BPDF database for the analysis of Earth |
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target reflectances</title> |
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<rawText>Asrar, G., Fuchs, M., Kanemasu, E. T., and Hatfield, J. L.: |
|
192 |
Estimating Absorbed Photosynthetic Radiation and Leaf-Area Index from |
|
193 |
Spectral Reflectance in Wheat, Agron. J., 76, 300-306, 1984.</rawText> |
|
194 |
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|
195 |
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|
196 |
<rawText>Bacour, C. and Breon, F. M.: Variability of biome reflectance |
|
197 |
directional signatures as seen by POLDER, Remote Sens. Environ., 98, |
|
198 |
80-95, doi:10.1016/j.rse.2005.06.008, 2005.</rawText> |
|
199 |
</citation> |
|
200 |
<citation position="3"> |
|
201 |
<rawText>Bicheron, P. and Leroy, M.: Bidirectional reflectance distribution |
|
202 |
function signatures of major biomes observed from space, J. Geophys. |
|
203 |
Res.-Atmos., 105, 26669-26681, doi:10.1029/2000jd900380, 2000.</rawText> |
|
204 |
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|
205 |
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|
206 |
<rawText>Breon, F. M. and Doutriaux-Boucher, M.: A comparison of cloud |
|
207 |
droplet radii measured from space, IEEE T. Geosci. Remote, 43, |
|
208 |
1796-1805, doi:10.1109/Tgrs.2005.852838, 2005.</rawText> |
|
209 |
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|
210 |
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|
211 |
<rawText>Breon, F. M. and Vermote, E.: Correction of MODIS surface |
|
212 |
reflectance time series for BRDF effects, Remote Sens. Environ., 125, |
|
213 |
1-9, doi:10.1016/J.Rse.2012.06.025, 2012.</rawText> |
|
214 |
</citation> |
|
215 |
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|
216 |
<rawText>Breon, F. M., Tanre, D., Lecomte, P., and Herman, M.: Polarized |
|
217 |
Reflectance of Bare Soils and Vegetation - Measurements and Models, IEEE |
|
218 |
T. Geosci. Remote, 33, 487-499, doi:10.1109/36.377949, 1995.</rawText> |
|
219 |
</citation> |
|
220 |
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|
221 |
<rawText>Breon, F. M., Maignan, F., Leroy, M., and Grant, I.: Analysis of |
|
222 |
hot spot directional signatures measured from space, J. Geophys. |
|
223 |
Res.-Atmos., 107, 4282, doi:10.1029/2001jd001094, 2002.</rawText> |
|
224 |
</citation> |
|
225 |
<citation position="8"> |
|
226 |
<rawText>Carlson, T. N. and Ripley, D. A.: On the relation between NDVI, |
|
227 |
fractional vegetation cover, and leaf area index, Remote Sens. Environ., |
|
228 |
62, 241-252, doi:10.1016/S0034-4257(97)00104-1, 1997.</rawText> |
|
229 |
</citation> |
|
230 |
<citation position="9"> |
|
231 |
<rawText>Cui, Y., Mitomi, Y., and Takamura, T.: An empirical anisotropy |
|
232 |
correction model for estimating land surface albedo for radiation budget |
|
233 |
studies, Remote Sens. Environ., 113, 24-39, |
|
234 |
doi:10.1016/j.rse.2008.08.007, 2009.</rawText> |
|
235 |
</citation> |
|
236 |
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|
237 |
<rawText>Deschamps, P. Y., Breon, F. M., Leroy, M., Podaire, A., Bricaud, |
|
238 |
A., Buriez, J. C., and Seze, G.: The Polder Mission - Instrument |
|
239 |
Characteristics and Scientific Objectives, IEEE T. Geosci. Remote, 32, |
|
240 |
598-615, doi:10.1109/36.297978, 1994.</rawText> |
|
241 |
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|
242 |
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|
243 |
<rawText>Deuze, J. L., Breon, F. M., Devaux, C., Goloub, P., Herman, M., |
|
244 |
Lafrance, B., Maignan, F., Marchand, A., Nadal, F., Perry, G., and |
|
245 |
Tanre, D.: Remote sensing of aerosols over land surfaces from |
|
246 |
POLDER-ADEOS-1 polarized measurements, J. Geophys. Res.-Atmos., 106, |
|
247 |
4913-4926, doi:10.1029/2000jd900364, 2001.</rawText> |
|
248 |
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|
249 |
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|
250 |
<rawText>Diner, D. J., Beckert, J. C., Reilly, T. H., Bruegge, C. J., Conel, |
|
251 |
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|
252 |
Gerstl, S. A. W., Gordon, H. R., Muller, J. P., Myneni, R. B., Sellers, |
|
253 |
P. J., Pinty, B., and Verstraete, M. M.: Multi-angle Imaging |
|
254 |
SpectroRadiometer (MISR) - Instrument description and experiment |
|
255 |
overview, IEEE T. Geosci. Remote, 36, 1072-1087, doi:10.1109/36.700992, |
|
256 |
1998.</rawText> |
|
257 |
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|
258 |
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|
259 |
<rawText>Engelsen, O., Pinty, B., Verstraete, M. M., and Martonchik, J. V.: |
|
260 |
Parametric surface bidirectional reflectance factor models for |
|
261 |
atmospheric radiative transfer modeling, Igarss'98 - 1998 International |
|
262 |
Geoscience and Remote Sensing Symposium, Volume 1-5, 713-715, |
|
263 |
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|
264 |
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|
265 |
<citation position="14"> |
|
266 |
<rawText>Fougnie, B.: Improvement of the PARASOL Radiometric In-Flight |
|
267 |
Calibration Based on Synergy Between Various Methods Using Natural |
|
268 |
Targets, IEEE T. Geosci. Remote, 54, 2140-2152, |
|
269 |
doi:10.1109/Tgrs.2015.2496322, 2016.</rawText> |
|
270 |
</citation> |
|
271 |
<citation position="15"> |
|
272 |
<rawText>Fougnie, B., Bracco, G., Lafrance, B., Ruffel, C., Hagolle, O., and |
|
273 |
Tinell, C.: PARASOL in-flight calibration and performance, Appl. Optics, |
|
274 |
46, 5435-5451, doi:10.1364/Ao.46.005435, 2007.</rawText> |
|
275 |
<id value="dedup_wf_001::0e3d7d41fbb00c7694817cba5925ac85" type="openaire" |
|
276 |
confidenceLevel="0.70327556"/> |
|
277 |
</citation> |
|
278 |
<citation position="16"> |
|
279 |
<rawText>Gatebe, C. K. and King, M. D.: Airborne spectral BRDF of various |
|
280 |
surface types (ocean, vegetation, snow, desert, wetlands, cloud decks, |
|
281 |
smoke layers) for remote sensing applications, Remote Sens. Environ., |
|
282 |
179, 131-148, doi:10.1016/j.rse.2016.03.029, 2016.</rawText> |
|
283 |
</citation> |
|
284 |
<citation position="17"> |
|
285 |
<rawText>Jiao, Z. T., Dong, Y. D., Zhang, H., and Li, X. W.: To Derive Brdf |
|
286 |
Archetypes from Polder-3 Brdf Database, Int. Geosci. Remote Se., |
|
287 |
3586-3589, doi:10.1109/Igarss.2014.6947258, 2014.</rawText> |
|
288 |
</citation> |
|
289 |
<citation position="18"> |
|
290 |
<rawText>Kokhanovsky, A. A. and Breon, F. M.: Validation of an Analytical |
|
291 |
Snow BRDF Model Using PARASOL Multi-Angular and Multispectral |
|
292 |
Observations, IEEE Geosci. Remote S., 9, 928-932, |
|
293 |
doi:10.1109/Lgrs.2012.2185775, 2012.</rawText> |
|
294 |
</citation> |
|
295 |
<citation position="19"> |
|
296 |
<rawText>Lallart, P., Kahn, R., and Tanre, D.: POLDER2/ADEOSII, MISR, and |
|
297 |
MODIS/Terra reflectance comparisons, J. Geophys. Res.- Atmos., 113, |
|
298 |
D14s02, doi:10.1029/2007jd009656, 2008.</rawText> |
|
299 |
</citation> |
|
300 |
<citation position="20"> |
|
301 |
<rawText>Liang, D., Zuo, Y., Huang, L. S., Zhao, J. L., Teng, L., and Yang, |
|
302 |
F.: Evaluation of the Consistency of MODIS Land Cover Product (MCD12Q1) |
|
303 |
Based on Chinese 30 m GlobeLand30 Datasets: A Case Study in Anhui |
|
304 |
Province, China, ISPRS Int. J. Geo-Inf., 4, 2519-2541, |
|
305 |
doi:10.3390/ijgi4042519, 2015.</rawText> |
|
306 |
</citation> |
|
307 |
<citation position="21"> |
|
308 |
<rawText>Litvinov, P., Hasekamp, O., and Cairns, B.: Models for surface |
|
309 |
reflection of radiance and polarized radiance: Comparison with airborne |
|
310 |
multi-angle photopolarimetric measurements and implications for modeling |
|
311 |
top-of-atmosphere measurements, Remote Sens. Environ., 115, 781-792, |
|
312 |
doi:10.1016/j.rse.2010.11.005, 2011.</rawText> |
|
313 |
</citation> |
|
314 |
<citation position="22"> |
|
315 |
<rawText>Litvinov, P., Hasekamp, O., Dubovik, O., and Cairns, B.: Model for |
|
316 |
land surface reflectance treatment: Physical derivation, application for |
|
317 |
bare soil and evaluation on airborne and satellite measurements, J. |
|
318 |
Quant. Spectrosc. Ra., 113, 2023-2039, doi:10.1016/j.jqsrt.2012.06.027, |
|
319 |
2012.</rawText> |
|
320 |
</citation> |
|
321 |
<citation position="23"> |
|
322 |
<rawText>Loveland, T. R., Zhu, Z. L., Ohlen, D. O., Brown, J. F., Reed, B. |
|
323 |
C., and Yang, L. M.: An analysis of the IGBP global land-cover |
|
324 |
characterization process, Photogramm. Eng. Rem. S., 65, 1021- 1032, |
|
325 |
1999.</rawText> |
|
326 |
</citation> |
|
327 |
<citation position="24"> |
|
328 |
<rawText>Lunetta, R. S., Knight, J. F., Ediriwickrema, J., Lyon, J. G., and |
|
329 |
Worthy, L. D.: Land-cover change detection using multitemporal MODIS |
|
330 |
NDVI data, Remote Sens. Environ., 105, 142- 154, |
|
331 |
doi:10.1016/j.rse.2006.06.018, 2006.</rawText> |
|
332 |
</citation> |
|
333 |
<citation position="25"> |
|
334 |
<rawText>Maignan, F., Breon, F. M., and Lacaze, R.: Bidirectional |
|
335 |
reflectance of Earth targets: Evaluation of analytical models using a |
|
336 |
large set of spaceborne measurements with emphasis on the Hot Spot, |
|
337 |
Remote Sens. Environ., 90, 210-220, doi:10.1016/j.rse.2003.12.006, |
|
338 |
2004.</rawText> |
|
339 |
</citation> |
|
340 |
<citation position="26"> |
|
341 |
<rawText>Maignan, F., Breon, F. M., Fedele, E., and Bouvier, M.: Polarized |
|
342 |
reflectances of natural surfaces: Spaceborne measurements and analytical |
|
343 |
modeling, Remote Sens. Environ., 113, 2642-2650, |
|
344 |
doi:10.1016/j.rse.2009.07.022, 2009.</rawText> |
|
345 |
</citation> |
|
346 |
<citation position="27"> |
|
347 |
<rawText>Marbach, T., Riedi, J., Lacan, A., and Schlussel, P.: The 3MI |
|
348 |
Mission: Multi-Viewing -Channel -Polarisation Imager of the EUMETSAT |
|
349 |
Polar System: Second Generation (EPS-SG) dedicated to aerosol and cloud |
|
350 |
monitoring, P. Soc. Photo-Opt. Ins., 9613, 961310, |
|
351 |
doi:10.1117/12.2186978, 2015.</rawText> |
|
352 |
</citation> |
|
353 |
<citation position="28"> |
|
354 |
<rawText>Mishchenko, M. I., Cairns, B., Kopp, G., Schueler, C. F., Fafaul, |
|
355 |
B. A., Hansen, J. E., Hooker, R. J., Itchkawich, T., Maring, H. B., and |
|
356 |
Travis, L. D.: Accurate monitoring of terrestrial aerosols and total |
|
357 |
solar irradiance - Introducing the glory mission, B. Am. Meteorol. Soc., |
|
358 |
88, 677-691, doi:10.1175/BAMS-88-5-677, 2007.</rawText> |
|
359 |
</citation> |
|
360 |
<citation position="29"> |
|
361 |
<rawText>Nadal, F. and Breon, F. M.: Parameterization of surface polarized |
|
362 |
reflectance derived from POLDER spaceborne measurements, IEEE T. Geosci. |
|
363 |
Remote, 37, 1709-1718, doi:10.1109/36.763292, 1999.</rawText> |
|
364 |
</citation> |
|
365 |
<citation position="30"> |
|
366 |
<rawText>Peltoniemi, J. I., Kaasalainen, S., Naranen, J., Matikainen, L., |
|
367 |
and Piironen, J.: Measurement of directional and spectral signatures of |
|
368 |
light reflectance by snow, IEEE T. Geosci. Remote, 43, 2294- 2304, |
|
369 |
doi:10.1109/Tgrs.2005.855131, 2005.</rawText> |
|
370 |
</citation> |
|
371 |
<citation position="31"> |
|
372 |
<rawText>Roujean, J. L., Leroy, M., and Deschamps, P. Y.: A Bidirectional |
|
373 |
Reflectance Model of the Earths Surface for the Correction of |
|
374 |
Remote-Sensing Data, J. Geophys. Res.-Atmos., 97, 20455- 20468, |
|
375 |
1992.</rawText> |
|
376 |
</citation> |
|
377 |
<citation position="32"> |
|
378 |
<rawText>Schaaf, C. B., Gao, F., Strahler, A. H., Lucht, W., Li, X. W., |
|
379 |
Tsang, T., Strugnell, N. C., Zhang, X. Y., Jin, Y. F., Muller, J. P., |
|
380 |
Lewis, P., Barnsley, M., Hobson, P., Disney, M., Roberts, G., |
|
381 |
Dunderdale, M., Doll, C., d'Entremont, R. P., Hu, B. X., Liang, S. L., |
|
382 |
Privette, J. L., and Roy, D.: First operational BRDF, albedo nadir |
|
383 |
reflectance products from MODIS, Remote Sens. Environ., 83, 135-148, |
|
384 |
doi:10.1016/S0034-4257(02)00091-3, 2002.</rawText> |
|
385 |
</citation> |
|
386 |
<citation position="33"> |
|
387 |
<rawText>Schaepman-Strub, G., Schaepman, M. E., Painter, T. H., Dangel, S., |
|
388 |
and Martonchik, J. V.: Reflectance quantities in optical remote |
|
389 |
sensing-definitions and case studies, Remote Sens. Environ., 103, 27-42, |
|
390 |
doi:10.1016/j.rse.2006.03.002, 2006.</rawText> |
|
391 |
</citation> |
|
392 |
<citation position="34"> |
|
393 |
<rawText>Schutgens, N. A. J., Tilstra, L. G., Stammes, P., and Breon, F. M.: |
|
394 |
On the relationship between Stokes parameters Q and U of atmospheric |
|
395 |
ultraviolet/visible/near-infrared radiation, J. Geophys. Res.-Atmos., |
|
396 |
109, D09205, doi:10.1029/2003jd004081, 2004.</rawText> |
|
397 |
</citation> |
|
398 |
<citation position="35"> |
|
399 |
<rawText>Tanré, D., Bréon, F. M., Deuzé, J. L., Dubovik, O., Ducos, F., |
|
400 |
François, P., Goloub, P., Herman, M., Lifermann, A., and Waquet, F.: |
|
401 |
Remote sensing of aerosols by using polarized, directional and spectral |
|
402 |
measurements within the A-Train: the PARASOL mission, Atmos. Meas. |
|
403 |
Tech., 4, 1383-1395, doi:10.5194/amt-4-1383-2011, 2011.</rawText> |
|
404 |
<id value="doajarticles::33b0e0594de556367731f5f7bfacc513" type="openaire" |
|
405 |
confidenceLevel="0.648629"/> |
|
406 |
</citation> |
|
407 |
<citation position="36"> |
|
408 |
<rawText>Verstraete, M. M., Pinty, B., and Dickinson, R. E.: A Physical |
|
409 |
Model of the Bidirectional Reflectance of Vegetation Canopies - 1. |
|
410 |
Theory, J. Geophys. Res.-Atmos., 95, 11755-11765, |
|
411 |
doi:10.1029/JD095iD08p11755, 1990.</rawText> |
|
412 |
</citation> |
|
413 |
<citation position="37"> |
|
414 |
<rawText>Waquet, F., Leon, J. F., Cairns, B., Goloub, P., Deuze, J. L., and |
|
415 |
Auriol, F.: Analysis of the spectral and angular response of the |
|
416 |
vegetated surface polarization for the purpose of aerosol remote sensing |
|
417 |
over land, Appl. Opt., 48, 1228-1236, doi:10.1364/Ao.48.001228, |
|
418 |
2009a.</rawText> |
|
419 |
</citation> |
|
420 |
<citation position="38"> |
|
421 |
<rawText>Waquet, F., Riedi, J., Labonnote, L. C., Goloub, P., Cairns, B., |
|
422 |
Deuze, J. L., and Tanre, D.: Aerosol Remote Sensing over Clouds Using |
|
423 |
A-Train Observations, J. Atmos. Sci., 66, 2468-2480, |
|
424 |
doi:10.1175/2009jas3026.1, 2009b.</rawText> |
|
425 |
</citation> |
|
426 |
</citations> |
|
427 |
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|
121 | 428 |
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122 | 429 |
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123 | 430 |
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