Marisia - Maros Megyei Múzeum Évkönyve 29-30/2. (2010)
Botany
The wetland soil conservation status assessment using plant indicators and remote sensing techniques on Caraorman area Table 1: The soils type list (where: carbonatic = carbonate, molic = molic, histic = histic, carbonatic semifixat = mobile sand, nisipoasä = sandy, nisipuri fine = fine sands) CLASA,C,80 COD JAR,C,5 TIP, C, 80 SUBTIP,C,80 TEXT, C, 80 SUBSTR,C,80 COD_UTS,C,7 Protisoluri Pk.l Psamosol carbonatic nisipoasä nisipuri fine PSka/N Protisoluri Pp.l Psamosol molic nisipoasä nisipuri fine PSmo/N Protisoluri Pp.l Psamosol molic nisipoasä nisipuri fine PSmo/N Protisoluri Nk.l Nisip carbonatic semifixat nisipoasä nisipuri fine NSka/N Protisoluri Pp.l Psamosol molic nisipoasä nisipuri fine PSmo/N Protisoluri Pp.l Psamosol molic nisipoasä nisipuri fine PSmo/N Protisoluri Ph.8 Psamosol histic Färä nisipuri fine PStb/O Protisoluri Pp.l Psamosol molic nisipoasä nisipuri fine PSmo/N Protisoluri Ph.8 Psamosol histic Färä nisipuri fine PStb/O Protisoluri Nk.l Nisip carbonatic semifixat nisipoasä nisipuri fine NSka/N An important part of the database type table that containing information about plant’s associations is presented in the second table (Tab. 2) and first figure (Fig. 1). Due to limitations of representation of data in GIS applications, each row of the table must contain a unique value, such as the polygons in the same layer do not overlap perfectly, because otherwise the application does not know how to manage them. [5], [6] From that reason the correlation between the soils characteristics and plant associations, as well as the soil components and plant indicators must be achieved by introducing more columns to store data for plant associations or indicator plants (Tab. 1, 2, 3; Fig. 1, 2). This is the only way to achieve a relationship of type one (soils characteristics type) to many (plant associations or indicator plants type). The result is a matrix of plant associations or indicator plants type (ASOCij = plants association matrix, where “i” is number of soil component represented by COD_UTS and j = 1, ..., 4 - is number of plant associations). The UTS is from Unitate Teritorialä de Sol (Territorial Unit of Soil or soil component - after FAO criteria [10]). [1], [3], [5], [6], [9] Table 2: The plant associations type matrix (where: Xerofite = Xerophyte, Mezo-xerofite = Mezo-xerophyte, Higrofite = Hygrophyte) COD_ I |.c»„ , |asoc_ |asoc_ |asoc_ UTS,C,7 CATEGORIE’C-16 ASOC_l,C,42 2,C,42 3,C,42 4,C,42 PSka/N Xerofite Aperetum maritimae_______________________—_________—_________—____ PSmo/N Mezo-xerofite Fraxinetum pallisae________________________—_________—_________—____ PSmo/N Mezo-xerofite Fraxinetum pallisae________________________—_________—_________—____ NSka/N Xerofite Scabioso argenteae — Caricetum colchicae_______—_________—_________—____ PSmo/N Mezo-xerofite Fraxinetum pallisae________________________—_________—_________—____ PSmo/N Mezo-xerofite_______Fraxinetum pallisae________________________—_________—_________—____ PStb/O Higrofite___________Caricetum acutiformis________________ — —_________—____ PSmo/N Mezo-xerofite Fraxinetum pallisae________________________—_________—_________—____ PStb/O Higrofite___________Caricetum acutiformis______________________—_________-_________NSka/N Xerofite Scabioso argenteae — Caricetum colchicae_______—_________—________— 45
