TY  - JOUR
AU  - Bruelheide, Helge
AU  - Dengler, Juergen
AU  - Jimenez-Alfaro, Borja
AU  - Purschke, Oliver
AU  - Hennekens, Stephan M.
AU  - Chytry, Milan
AU  - Pillar, Valerio D.
AU  - Jansen, Florian
AU  - Kattge, Jens
AU  - Sandel, Brody
AU  - Aubin, Isabelle
AU  - Biurrun, Idoia
AU  - Field, Richard
AU  - Haider, Sylvia
AU  - Jandt, Ute
AU  - Lenoir, Jonathan
AU  - Peet, Robert K.
AU  - Peyre, Gwendolyn
AU  - Sabatini, Francesco Maria
AU  - Schmidt, Marco
AU  - Schrodt, Franziska
AU  - Winter, Marten
AU  - Aćić, Svetlana
AU  - Agrillo, Emiliano
AU  - Alvarez, Miguel
AU  - Ambarli, Didem
AU  - Angelini, Pierangela
AU  - Apostolova, Iva
AU  - Khan, Mohammed A.S.Arfin
AU  - Arnst, Elise
AU  - Attorre, Fabio
AU  - Baraloto, Christopher
AU  - Beckmann, Michael
AU  - Berg, Christian
AU  - Bergeron, Yves
AU  - Bergmeier, Erwin
AU  - Bjorkman, Anne D.
AU  - Bondareva, Viktoria
AU  - Borchardt, Peter
AU  - Botta-Dukat, Zoltan
AU  - Boyle, Brad
AU  - Breen, Amy
AU  - Brisse, Henry
AU  - Byun, Chaeho
AU  - Cabido, Marcelo R.
AU  - Casella, Laura
AU  - Cayuela, Luis
AU  - Cerny, Tomas
AU  - Chepinoga, Victor
AU  - Csiky, Janos
AU  - Curran, Michael
AU  - Custerevska, Renata
AU  - Dajić-Stevanović, Zora
AU  - De Bie, Els
AU  - de Ruffray, Patrice
AU  - De Sanctis, Michele
AU  - Dimopoulos, Panayotis
AU  - Dressler, Stefan
AU  - Ejrnaes, Rasmus
AU  - El-Sheikh, Mohamed Abd El-Rouf Mousa
AU  - Enquist, Brian
AU  - Ewald, Joerg
AU  - Fagundez, Jaime
AU  - Finckh, Manfred
AU  - Font, Xavier
AU  - Forey, Estelle
AU  - Fotiadis, Georgios
AU  - Garcia-Mijangos, Itziar
AU  - de Gasper, Andre Luis
AU  - Golub, Valentin
AU  - Gutierrez, Alvaro G.
AU  - Hatim, Mohamed Z.
AU  - He, Tianhua
AU  - Higuchi, Pedro
AU  - Holubova, Dana
AU  - Hoelzel, Norbert
AU  - Homeier, Juergen
AU  - Indreica, Adrian
AU  - Gursoy, Deniz Isik
AU  - Jansen, Steven
AU  - Janssen, John
AU  - Jedrzejek, Birgit
AU  - Jirousek, Martin
AU  - Juergens, Norbert
AU  - Kacki, Zygmunt
AU  - Kavgaci, Ali
AU  - Kearsley, Elizabeth
AU  - Kessler, Michael
AU  - Knollova, Ilona
AU  - Kolomiychuk, Vitaliy
AU  - Korolyuk, Andrey
AU  - Kozhevnikova, Maria
AU  - Kozub, Lukasz
AU  - Krstonosić, Daniel
AU  - Kuehl, Hjalmar
AU  - Kuehn, Ingolf
AU  - Kuzemko, Anna
AU  - Kuzmić, Filip
AU  - Landucci, Flavia
AU  - Lee, Michael T.
AU  - Levesley, Aurora
AU  - Li, Ching-Feng
AU  - Liu, Hongyan
AU  - Lopez-Gonzalez, Gabriela
AU  - Lysenko, Tatiana
AU  - Macanović, Armin
AU  - Mahdavi, Parastoo
AU  - Manning, Peter
AU  - Marceno, Corrado
AU  - Martynenko, Vassiliy
AU  - Mencuccini, Maurizio
AU  - Minden, Vanessa
AU  - Moeslund, Jesper Erenskjold
AU  - Moretti, Marco
AU  - Mueller, Jonas V.
AU  - Munzinger, Jerome
AU  - Niinemets, Ulo
AU  - Nobis, Marcin
AU  - Noroozi, Jalil
AU  - Nowak, Arkadiusz
AU  - Onyshchenko, Viktor
AU  - Overbeck, Gerhard E.
AU  - Ozinga, Wim A.
AU  - Pauchard, Anibal
AU  - Pedashenko, Hristo
AU  - Penuelas, Josep
AU  - Perez-Haase, Aaron
AU  - Peterka, Tomas
AU  - Petrik, Petr
AU  - Phillips, Oliver L.
AU  - Prokhorov, Vadim
AU  - Rasomavicius, Valerijus
AU  - Revermann, Rasmus
AU  - Rodwell, John
AU  - Ruprecht, Eszter
AU  - Rusina, Solvita
AU  - Samimi, Cyrus
AU  - Schaminee, Joop H.J.
AU  - Schmiedel, Ute
AU  - Sibik, Jozef
AU  - Silc, Urban
AU  - Skvorc, Željko
AU  - Smyth, Anita
AU  - Sop, Tenekwetche
AU  - Sopotlieva, Desislava
AU  - Sparrow, Ben
AU  - Stancić, Zvjezdana
AU  - Svenning, Jens-Christian
AU  - Swacha, Grzegorz
AU  - Tang, Zhiyao
AU  - Tsiripidis, Ioannis
AU  - Turtureanu, Pavel Dan
AU  - Ugurlu, Emin
AU  - Uogintas, Domas
AU  - Valachović, Milan
AU  - Vanselow, Kim Andre
AU  - Vashenyak, Yulia
AU  - Vassilev, Kiril
AU  - Velez-Martin, Eduardo
AU  - Venanzoni, Roberto
AU  - Vibrans, Alexander Christian
AU  - Violle, Cyrille
AU  - Virtanen, Risto
AU  - von Wehrden, Henrik
AU  - Wagner, Viktoria
AU  - Walker, Donald A.
AU  - Wana, Desalegn
AU  - Weiher, Evan
AU  - Wesche, Karsten
AU  - Whitfeld, Timothy
AU  - Willner, Wolfgang
AU  - Wiser, Susan
AU  - Wohlgemuth, Thomas
AU  - Yamalov, Sergey
AU  - Zizka, Georg
AU  - Zverev, Andrei
PY  - 2019
UR  - http://aspace.agrif.bg.ac.rs/handle/123456789/5069
AB  - Aims Vegetation-plot records provide information on the presence and cover or abundance of plants co-occurring in the same community. Vegetation-plot data are spread across research groups, environmental agencies and biodiversity research centers and, thus, are rarely accessible at continental or global scales. Here we present the sPlot database, which collates vegetation plots worldwide to allow for the exploration of global patterns in taxonomic, functional and phylogenetic diversity at the plant community level. Results sPlot version 2.1 contains records from 1,121,244 vegetation plots, which comprise 23,586,216 records of plant species and their relative cover or abundance in plots collected worldwide between 1885 and 2015. We complemented the information for each plot by retrieving climate and soil conditions and the biogeographic context (e.g., biomes) from external sources, and by calculating community-weighted means and variances of traits using gap-filled data from the global plant trait database TRY. Moreover, we created a phylogenetic tree for 50,167 out of the 54,519 species identified in the plots. We present the first maps of global patterns of community richness and community-weighted means of key traits. Conclusions The availability of vegetation plot data in sPlot offers new avenues for vegetation analysis at the global scale.
PB  - Wiley, Hoboken
T2  - Journal of Vegetation Science
T1  - sPlot - A new tool for global vegetation analyses
EP  - 186
IS  - 2
SP  - 161
VL  - 30
DO  - 10.1111/jvs.12710
ER  - 

@article{
author = "Bruelheide, Helge and Dengler, Juergen and Jimenez-Alfaro, Borja and Purschke, Oliver and Hennekens, Stephan M. and Chytry, Milan and Pillar, Valerio D. and Jansen, Florian and Kattge, Jens and Sandel, Brody and Aubin, Isabelle and Biurrun, Idoia and Field, Richard and Haider, Sylvia and Jandt, Ute and Lenoir, Jonathan and Peet, Robert K. and Peyre, Gwendolyn and Sabatini, Francesco Maria and Schmidt, Marco and Schrodt, Franziska and Winter, Marten and Aćić, Svetlana and Agrillo, Emiliano and Alvarez, Miguel and Ambarli, Didem and Angelini, Pierangela and Apostolova, Iva and Khan, Mohammed A.S.Arfin and Arnst, Elise and Attorre, Fabio and Baraloto, Christopher and Beckmann, Michael and Berg, Christian and Bergeron, Yves and Bergmeier, Erwin and Bjorkman, Anne D. and Bondareva, Viktoria and Borchardt, Peter and Botta-Dukat, Zoltan and Boyle, Brad and Breen, Amy and Brisse, Henry and Byun, Chaeho and Cabido, Marcelo R. and Casella, Laura and Cayuela, Luis and Cerny, Tomas and Chepinoga, Victor and Csiky, Janos and Curran, Michael and Custerevska, Renata and Dajić-Stevanović, Zora and De Bie, Els and de Ruffray, Patrice and De Sanctis, Michele and Dimopoulos, Panayotis and Dressler, Stefan and Ejrnaes, Rasmus and El-Sheikh, Mohamed Abd El-Rouf Mousa and Enquist, Brian and Ewald, Joerg and Fagundez, Jaime and Finckh, Manfred and Font, Xavier and Forey, Estelle and Fotiadis, Georgios and Garcia-Mijangos, Itziar and de Gasper, Andre Luis and Golub, Valentin and Gutierrez, Alvaro G. and Hatim, Mohamed Z. and He, Tianhua and Higuchi, Pedro and Holubova, Dana and Hoelzel, Norbert and Homeier, Juergen and Indreica, Adrian and Gursoy, Deniz Isik and Jansen, Steven and Janssen, John and Jedrzejek, Birgit and Jirousek, Martin and Juergens, Norbert and Kacki, Zygmunt and Kavgaci, Ali and Kearsley, Elizabeth and Kessler, Michael and Knollova, Ilona and Kolomiychuk, Vitaliy and Korolyuk, Andrey and Kozhevnikova, Maria and Kozub, Lukasz and Krstonosić, Daniel and Kuehl, Hjalmar and Kuehn, Ingolf and Kuzemko, Anna and Kuzmić, Filip and Landucci, Flavia and Lee, Michael T. and Levesley, Aurora and Li, Ching-Feng and Liu, Hongyan and Lopez-Gonzalez, Gabriela and Lysenko, Tatiana and Macanović, Armin and Mahdavi, Parastoo and Manning, Peter and Marceno, Corrado and Martynenko, Vassiliy and Mencuccini, Maurizio and Minden, Vanessa and Moeslund, Jesper Erenskjold and Moretti, Marco and Mueller, Jonas V. and Munzinger, Jerome and Niinemets, Ulo and Nobis, Marcin and Noroozi, Jalil and Nowak, Arkadiusz and Onyshchenko, Viktor and Overbeck, Gerhard E. and Ozinga, Wim A. and Pauchard, Anibal and Pedashenko, Hristo and Penuelas, Josep and Perez-Haase, Aaron and Peterka, Tomas and Petrik, Petr and Phillips, Oliver L. and Prokhorov, Vadim and Rasomavicius, Valerijus and Revermann, Rasmus and Rodwell, John and Ruprecht, Eszter and Rusina, Solvita and Samimi, Cyrus and Schaminee, Joop H.J. and Schmiedel, Ute and Sibik, Jozef and Silc, Urban and Skvorc, Željko and Smyth, Anita and Sop, Tenekwetche and Sopotlieva, Desislava and Sparrow, Ben and Stancić, Zvjezdana and Svenning, Jens-Christian and Swacha, Grzegorz and Tang, Zhiyao and Tsiripidis, Ioannis and Turtureanu, Pavel Dan and Ugurlu, Emin and Uogintas, Domas and Valachović, Milan and Vanselow, Kim Andre and Vashenyak, Yulia and Vassilev, Kiril and Velez-Martin, Eduardo and Venanzoni, Roberto and Vibrans, Alexander Christian and Violle, Cyrille and Virtanen, Risto and von Wehrden, Henrik and Wagner, Viktoria and Walker, Donald A. and Wana, Desalegn and Weiher, Evan and Wesche, Karsten and Whitfeld, Timothy and Willner, Wolfgang and Wiser, Susan and Wohlgemuth, Thomas and Yamalov, Sergey and Zizka, Georg and Zverev, Andrei",
year = "2019",
abstract = "Aims Vegetation-plot records provide information on the presence and cover or abundance of plants co-occurring in the same community. Vegetation-plot data are spread across research groups, environmental agencies and biodiversity research centers and, thus, are rarely accessible at continental or global scales. Here we present the sPlot database, which collates vegetation plots worldwide to allow for the exploration of global patterns in taxonomic, functional and phylogenetic diversity at the plant community level. Results sPlot version 2.1 contains records from 1,121,244 vegetation plots, which comprise 23,586,216 records of plant species and their relative cover or abundance in plots collected worldwide between 1885 and 2015. We complemented the information for each plot by retrieving climate and soil conditions and the biogeographic context (e.g., biomes) from external sources, and by calculating community-weighted means and variances of traits using gap-filled data from the global plant trait database TRY. Moreover, we created a phylogenetic tree for 50,167 out of the 54,519 species identified in the plots. We present the first maps of global patterns of community richness and community-weighted means of key traits. Conclusions The availability of vegetation plot data in sPlot offers new avenues for vegetation analysis at the global scale.",
publisher = "Wiley, Hoboken",
journal = "Journal of Vegetation Science",
title = "sPlot - A new tool for global vegetation analyses",
pages = "186-161",
number = "2",
volume = "30",
doi = "10.1111/jvs.12710"
}

Bruelheide, H., Dengler, J., Jimenez-Alfaro, B., Purschke, O., Hennekens, S. M., Chytry, M., Pillar, V. D., Jansen, F., Kattge, J., Sandel, B., Aubin, I., Biurrun, I., Field, R., Haider, S., Jandt, U., Lenoir, J., Peet, R. K., Peyre, G., Sabatini, F. M., Schmidt, M., Schrodt, F., Winter, M., Aćić, S., Agrillo, E., Alvarez, M., Ambarli, D., Angelini, P., Apostolova, I., Khan, M. A.S.Arfin, Arnst, E., Attorre, F., Baraloto, C., Beckmann, M., Berg, C., Bergeron, Y., Bergmeier, E., Bjorkman, A. D., Bondareva, V., Borchardt, P., Botta-Dukat, Z., Boyle, B., Breen, A., Brisse, H., Byun, C., Cabido, M. R., Casella, L., Cayuela, L., Cerny, T., Chepinoga, V., Csiky, J., Curran, M., Custerevska, R., Dajić-Stevanović, Z., De Bie, E., de Ruffray, P., De Sanctis, M., Dimopoulos, P., Dressler, S., Ejrnaes, R., El-Sheikh, M. A. E. M., Enquist, B., Ewald, J., Fagundez, J., Finckh, M., Font, X., Forey, E., Fotiadis, G., Garcia-Mijangos, I., de Gasper, A. L., Golub, V., Gutierrez, A. G., Hatim, M. Z., He, T., Higuchi, P., Holubova, D., Hoelzel, N., Homeier, J., Indreica, A., Gursoy, D. I., Jansen, S., Janssen, J., Jedrzejek, B., Jirousek, M., Juergens, N., Kacki, Z., Kavgaci, A., Kearsley, E., Kessler, M., Knollova, I., Kolomiychuk, V., Korolyuk, A., Kozhevnikova, M., Kozub, L., Krstonosić, D., Kuehl, H., Kuehn, I., Kuzemko, A., Kuzmić, F., Landucci, F., Lee, M. T., Levesley, A., Li, C., Liu, H., Lopez-Gonzalez, G., Lysenko, T., Macanović, A., Mahdavi, P., Manning, P., Marceno, C., Martynenko, V., Mencuccini, M., Minden, V., Moeslund, J. E., Moretti, M., Mueller, J. V., Munzinger, J., Niinemets, U., Nobis, M., Noroozi, J., Nowak, A., Onyshchenko, V., Overbeck, G. E., Ozinga, W. A., Pauchard, A., Pedashenko, H., Penuelas, J., Perez-Haase, A., Peterka, T., Petrik, P., Phillips, O. L., Prokhorov, V., Rasomavicius, V., Revermann, R., Rodwell, J., Ruprecht, E., Rusina, S., Samimi, C., Schaminee, J. H.J., Schmiedel, U., Sibik, J., Silc, U., Skvorc, Ž., Smyth, A., Sop, T., Sopotlieva, D., Sparrow, B., Stancić, Z., Svenning, J., Swacha, G., Tang, Z., Tsiripidis, I., Turtureanu, P. D., Ugurlu, E., Uogintas, D., Valachović, M., Vanselow, K. A., Vashenyak, Y., Vassilev, K., Velez-Martin, E., Venanzoni, R., Vibrans, A. C., Violle, C., Virtanen, R., von Wehrden, H., Wagner, V., Walker, D. A., Wana, D., Weiher, E., Wesche, K., Whitfeld, T., Willner, W., Wiser, S., Wohlgemuth, T., Yamalov, S., Zizka, G.,& Zverev, A.. (2019). sPlot - A new tool for global vegetation analyses. in Journal of Vegetation Science
Wiley, Hoboken., 30(2), 161-186.
https://doi.org/10.1111/jvs.12710

Bruelheide H, Dengler J, Jimenez-Alfaro B, Purschke O, Hennekens SM, Chytry M, Pillar VD, Jansen F, Kattge J, Sandel B, Aubin I, Biurrun I, Field R, Haider S, Jandt U, Lenoir J, Peet RK, Peyre G, Sabatini FM, Schmidt M, Schrodt F, Winter M, Aćić S, Agrillo E, Alvarez M, Ambarli D, Angelini P, Apostolova I, Khan MA, Arnst E, Attorre F, Baraloto C, Beckmann M, Berg C, Bergeron Y, Bergmeier E, Bjorkman AD, Bondareva V, Borchardt P, Botta-Dukat Z, Boyle B, Breen A, Brisse H, Byun C, Cabido MR, Casella L, Cayuela L, Cerny T, Chepinoga V, Csiky J, Curran M, Custerevska R, Dajić-Stevanović Z, De Bie E, de Ruffray P, De Sanctis M, Dimopoulos P, Dressler S, Ejrnaes R, El-Sheikh MAEM, Enquist B, Ewald J, Fagundez J, Finckh M, Font X, Forey E, Fotiadis G, Garcia-Mijangos I, de Gasper AL, Golub V, Gutierrez AG, Hatim MZ, He T, Higuchi P, Holubova D, Hoelzel N, Homeier J, Indreica A, Gursoy DI, Jansen S, Janssen J, Jedrzejek B, Jirousek M, Juergens N, Kacki Z, Kavgaci A, Kearsley E, Kessler M, Knollova I, Kolomiychuk V, Korolyuk A, Kozhevnikova M, Kozub L, Krstonosić D, Kuehl H, Kuehn I, Kuzemko A, Kuzmić F, Landucci F, Lee MT, Levesley A, Li C, Liu H, Lopez-Gonzalez G, Lysenko T, Macanović A, Mahdavi P, Manning P, Marceno C, Martynenko V, Mencuccini M, Minden V, Moeslund JE, Moretti M, Mueller JV, Munzinger J, Niinemets U, Nobis M, Noroozi J, Nowak A, Onyshchenko V, Overbeck GE, Ozinga WA, Pauchard A, Pedashenko H, Penuelas J, Perez-Haase A, Peterka T, Petrik P, Phillips OL, Prokhorov V, Rasomavicius V, Revermann R, Rodwell J, Ruprecht E, Rusina S, Samimi C, Schaminee JH, Schmiedel U, Sibik J, Silc U, Skvorc Ž, Smyth A, Sop T, Sopotlieva D, Sparrow B, Stancić Z, Svenning J, Swacha G, Tang Z, Tsiripidis I, Turtureanu PD, Ugurlu E, Uogintas D, Valachović M, Vanselow KA, Vashenyak Y, Vassilev K, Velez-Martin E, Venanzoni R, Vibrans AC, Violle C, Virtanen R, von Wehrden H, Wagner V, Walker DA, Wana D, Weiher E, Wesche K, Whitfeld T, Willner W, Wiser S, Wohlgemuth T, Yamalov S, Zizka G, Zverev A. sPlot - A new tool for global vegetation analyses. in Journal of Vegetation Science. 2019;30(2):161-186.
doi:10.1111/jvs.12710 .

Bruelheide, Helge, Dengler, Juergen, Jimenez-Alfaro, Borja, Purschke, Oliver, Hennekens, Stephan M., Chytry, Milan, Pillar, Valerio D., Jansen, Florian, Kattge, Jens, Sandel, Brody, Aubin, Isabelle, Biurrun, Idoia, Field, Richard, Haider, Sylvia, Jandt, Ute, Lenoir, Jonathan, Peet, Robert K., Peyre, Gwendolyn, Sabatini, Francesco Maria, Schmidt, Marco, Schrodt, Franziska, Winter, Marten, Aćić, Svetlana, Agrillo, Emiliano, Alvarez, Miguel, Ambarli, Didem, Angelini, Pierangela, Apostolova, Iva, Khan, Mohammed A.S.Arfin, Arnst, Elise, Attorre, Fabio, Baraloto, Christopher, Beckmann, Michael, Berg, Christian, Bergeron, Yves, Bergmeier, Erwin, Bjorkman, Anne D., Bondareva, Viktoria, Borchardt, Peter, Botta-Dukat, Zoltan, Boyle, Brad, Breen, Amy, Brisse, Henry, Byun, Chaeho, Cabido, Marcelo R., Casella, Laura, Cayuela, Luis, Cerny, Tomas, Chepinoga, Victor, Csiky, Janos, Curran, Michael, Custerevska, Renata, Dajić-Stevanović, Zora, De Bie, Els, de Ruffray, Patrice, De Sanctis, Michele, Dimopoulos, Panayotis, Dressler, Stefan, Ejrnaes, Rasmus, El-Sheikh, Mohamed Abd El-Rouf Mousa, Enquist, Brian, Ewald, Joerg, Fagundez, Jaime, Finckh, Manfred, Font, Xavier, Forey, Estelle, Fotiadis, Georgios, Garcia-Mijangos, Itziar, de Gasper, Andre Luis, Golub, Valentin, Gutierrez, Alvaro G., Hatim, Mohamed Z., He, Tianhua, Higuchi, Pedro, Holubova, Dana, Hoelzel, Norbert, Homeier, Juergen, Indreica, Adrian, Gursoy, Deniz Isik, Jansen, Steven, Janssen, John, Jedrzejek, Birgit, Jirousek, Martin, Juergens, Norbert, Kacki, Zygmunt, Kavgaci, Ali, Kearsley, Elizabeth, Kessler, Michael, Knollova, Ilona, Kolomiychuk, Vitaliy, Korolyuk, Andrey, Kozhevnikova, Maria, Kozub, Lukasz, Krstonosić, Daniel, Kuehl, Hjalmar, Kuehn, Ingolf, Kuzemko, Anna, Kuzmić, Filip, Landucci, Flavia, Lee, Michael T., Levesley, Aurora, Li, Ching-Feng, Liu, Hongyan, Lopez-Gonzalez, Gabriela, Lysenko, Tatiana, Macanović, Armin, Mahdavi, Parastoo, Manning, Peter, Marceno, Corrado, Martynenko, Vassiliy, Mencuccini, Maurizio, Minden, Vanessa, Moeslund, Jesper Erenskjold, Moretti, Marco, Mueller, Jonas V., Munzinger, Jerome, Niinemets, Ulo, Nobis, Marcin, Noroozi, Jalil, Nowak, Arkadiusz, Onyshchenko, Viktor, Overbeck, Gerhard E., Ozinga, Wim A., Pauchard, Anibal, Pedashenko, Hristo, Penuelas, Josep, Perez-Haase, Aaron, Peterka, Tomas, Petrik, Petr, Phillips, Oliver L., Prokhorov, Vadim, Rasomavicius, Valerijus, Revermann, Rasmus, Rodwell, John, Ruprecht, Eszter, Rusina, Solvita, Samimi, Cyrus, Schaminee, Joop H.J., Schmiedel, Ute, Sibik, Jozef, Silc, Urban, Skvorc, Željko, Smyth, Anita, Sop, Tenekwetche, Sopotlieva, Desislava, Sparrow, Ben, Stancić, Zvjezdana, Svenning, Jens-Christian, Swacha, Grzegorz, Tang, Zhiyao, Tsiripidis, Ioannis, Turtureanu, Pavel Dan, Ugurlu, Emin, Uogintas, Domas, Valachović, Milan, Vanselow, Kim Andre, Vashenyak, Yulia, Vassilev, Kiril, Velez-Martin, Eduardo, Venanzoni, Roberto, Vibrans, Alexander Christian, Violle, Cyrille, Virtanen, Risto, von Wehrden, Henrik, Wagner, Viktoria, Walker, Donald A., Wana, Desalegn, Weiher, Evan, Wesche, Karsten, Whitfeld, Timothy, Willner, Wolfgang, Wiser, Susan, Wohlgemuth, Thomas, Yamalov, Sergey, Zizka, Georg, Zverev, Andrei, "sPlot - A new tool for global vegetation analyses" in Journal of Vegetation Science, 30, no. 2 (2019):161-186,
https://doi.org/10.1111/jvs.12710 . .

TY  - JOUR
AU  - Rakić, Tamara
AU  - Jansen, Steven
AU  - Rančić, Dragana
PY  - 2017
UR  - http://aspace.agrif.bg.ac.rs/handle/123456789/4417
AB  - Ramonda serbica and R. nathaliae are known as resurrection flowering plants. Both species are long-living chasmophytes that are physiologically inactive during warm summer periods. Besides numerous known adaptations at the physiological level, it is reasonable to expect that these plant species possess a number of distinctive structural adaptations associated with poikilohydry. Therefore, we analyzed in detail the anatomy of roots, stem and leaves of both species. Plants were collected from their natural habitat or grown from seeds in controlled conditions. Fresh or fixed plant material was sectioned and stained by various histochemical reagents. In addition, vascular tissue was investigated on macerated plant material, and the characteristics of epidermal cells were analyzed on epidermal peelings. Samples were investigated by reflected or transmitted light microscopy, or by scanning electron microscopy. Epidermal cells of the leaves have specific anticlinal beaded thickenings, which could enable maintenance of the epidermis during dehydration and rehydration. Stem vascular tissues form a net-like structure. The shape and arrangement of parenchyma cells appear to support axial contraction. At the base of each adventitious root, a special, thick-walled tissue is observed, which is composed of living cells with pitted walls and probably not involved in long-distance water transport. Overall, various stem and leaf adaptations allow effective water transport through the plant and provide mechanical stability during the relatively fast process of dehydration and rehydration.
PB  - Elsevier Gmbh, Munich
T2  - Flora
T1  - Anatomical specificities of two paleoendemic flowering desiccation tolerant species of the genus Ramonda (Gesneriaceae)
EP  - 193
SP  - 186
VL  - 233
DO  - 10.1016/j.flora.2017.06.003
ER  - 

@article{
author = "Rakić, Tamara and Jansen, Steven and Rančić, Dragana",
year = "2017",
abstract = "Ramonda serbica and R. nathaliae are known as resurrection flowering plants. Both species are long-living chasmophytes that are physiologically inactive during warm summer periods. Besides numerous known adaptations at the physiological level, it is reasonable to expect that these plant species possess a number of distinctive structural adaptations associated with poikilohydry. Therefore, we analyzed in detail the anatomy of roots, stem and leaves of both species. Plants were collected from their natural habitat or grown from seeds in controlled conditions. Fresh or fixed plant material was sectioned and stained by various histochemical reagents. In addition, vascular tissue was investigated on macerated plant material, and the characteristics of epidermal cells were analyzed on epidermal peelings. Samples were investigated by reflected or transmitted light microscopy, or by scanning electron microscopy. Epidermal cells of the leaves have specific anticlinal beaded thickenings, which could enable maintenance of the epidermis during dehydration and rehydration. Stem vascular tissues form a net-like structure. The shape and arrangement of parenchyma cells appear to support axial contraction. At the base of each adventitious root, a special, thick-walled tissue is observed, which is composed of living cells with pitted walls and probably not involved in long-distance water transport. Overall, various stem and leaf adaptations allow effective water transport through the plant and provide mechanical stability during the relatively fast process of dehydration and rehydration.",
publisher = "Elsevier Gmbh, Munich",
journal = "Flora",
title = "Anatomical specificities of two paleoendemic flowering desiccation tolerant species of the genus Ramonda (Gesneriaceae)",
pages = "193-186",
volume = "233",
doi = "10.1016/j.flora.2017.06.003"
}

Rakić, T., Jansen, S.,& Rančić, D.. (2017). Anatomical specificities of two paleoendemic flowering desiccation tolerant species of the genus Ramonda (Gesneriaceae). in Flora
Elsevier Gmbh, Munich., 233, 186-193.
https://doi.org/10.1016/j.flora.2017.06.003

Rakić T, Jansen S, Rančić D. Anatomical specificities of two paleoendemic flowering desiccation tolerant species of the genus Ramonda (Gesneriaceae). in Flora. 2017;233:186-193.
doi:10.1016/j.flora.2017.06.003 .

Rakić, Tamara, Jansen, Steven, Rančić, Dragana, "Anatomical specificities of two paleoendemic flowering desiccation tolerant species of the genus Ramonda (Gesneriaceae)" in Flora, 233 (2017):186-193,
https://doi.org/10.1016/j.flora.2017.06.003 . .

TY  - CONF
AU  - Rančić, Dragana
AU  - Pekić-Quarrie, Sofija
AU  - Radošević, Radenko
AU  - Terzić, Maja
AU  - Pećinar, Ilinka
AU  - Stikić, Radmila
AU  - Jansen, Steven
PY  - 2010
UR  - http://aspace.agrif.bg.ac.rs/handle/123456789/2359
AB  - The abscission zone in fruit pedicels plays an important role in affecting not only water uptake in the developing fruit, but also in the transport of chemical signals from root to shoot. In order to characterize the hydraulic network of tomato fruit pedicels, we applied various techniques, including light, fluorescence microscopy, electron microscopy, maceration, tissue clearing, and X-ray computed tomography. Because of significant changes in xylem anatomy, the abscission zone in tomato fruit pedicels is illustrated to show a clear reduction in hydraulic conductance. Based on anatomical measurements, the theoretical axial xylem conductance was calculated via the Hagen-Poiseuille law, suggesting that the hydraulic resistance of the abscission zone increases at least two orders of magnitude compared to the pedicel zone near the stem. The advantages and shortcomings of the microscope techniques applied are discussed.
PB  - Springer Wien, Wien
C3  - Protoplasma
T1  - The application of various anatomical techniques for studying the hydraulic network in tomato fruit pedicels
EP  - 31
IS  - 1-4
SP  - 25
VL  - 246
DO  - 10.1007/s00709-010-0115-y
ER  - 

@conference{
author = "Rančić, Dragana and Pekić-Quarrie, Sofija and Radošević, Radenko and Terzić, Maja and Pećinar, Ilinka and Stikić, Radmila and Jansen, Steven",
year = "2010",
abstract = "The abscission zone in fruit pedicels plays an important role in affecting not only water uptake in the developing fruit, but also in the transport of chemical signals from root to shoot. In order to characterize the hydraulic network of tomato fruit pedicels, we applied various techniques, including light, fluorescence microscopy, electron microscopy, maceration, tissue clearing, and X-ray computed tomography. Because of significant changes in xylem anatomy, the abscission zone in tomato fruit pedicels is illustrated to show a clear reduction in hydraulic conductance. Based on anatomical measurements, the theoretical axial xylem conductance was calculated via the Hagen-Poiseuille law, suggesting that the hydraulic resistance of the abscission zone increases at least two orders of magnitude compared to the pedicel zone near the stem. The advantages and shortcomings of the microscope techniques applied are discussed.",
publisher = "Springer Wien, Wien",
journal = "Protoplasma",
title = "The application of various anatomical techniques for studying the hydraulic network in tomato fruit pedicels",
pages = "31-25",
number = "1-4",
volume = "246",
doi = "10.1007/s00709-010-0115-y"
}

Rančić, D., Pekić-Quarrie, S., Radošević, R., Terzić, M., Pećinar, I., Stikić, R.,& Jansen, S.. (2010). The application of various anatomical techniques for studying the hydraulic network in tomato fruit pedicels. in Protoplasma
Springer Wien, Wien., 246(1-4), 25-31.
https://doi.org/10.1007/s00709-010-0115-y

Rančić D, Pekić-Quarrie S, Radošević R, Terzić M, Pećinar I, Stikić R, Jansen S. The application of various anatomical techniques for studying the hydraulic network in tomato fruit pedicels. in Protoplasma. 2010;246(1-4):25-31.
doi:10.1007/s00709-010-0115-y .

Rančić, Dragana, Pekić-Quarrie, Sofija, Radošević, Radenko, Terzić, Maja, Pećinar, Ilinka, Stikić, Radmila, Jansen, Steven, "The application of various anatomical techniques for studying the hydraulic network in tomato fruit pedicels" in Protoplasma, 246, no. 1-4 (2010):25-31,
https://doi.org/10.1007/s00709-010-0115-y . .