Relationship between acid phosphatase activity and P concentration in organs of Cyclopia and Aspalathus species,and a non-legume of the Cape Floristic Region  

作　　者：Sipho T.Maseko Felix D.Dakora 

机构地区：[1]Department of Crop Sciences,Tshwane University of Technology,Private Bag X680,Pretoria 0001,South Africa [2]Chemistry Department,Tshwane University of Technology,Private Bag X680,Pretoria 0001,South Africa

出　　处：《Journal of Plant Ecology》2019年第2期387-392,共6页植物生态学报（英文版）

基　　金：The South African Research Chair in Agrochemurgy and PlantSymbioses, the National Research Foundation (No. 47720);theTshwane University of Technology are acknowledged for supportingthe research of F.D.D., and for providing a bursary to S.T.M. Weare grateful to the farmers (Mr Fritz Joubert and Mrs Rica Joubertat Koksrivier, and Mr Matie Taljaard and Mrs Erica Taljaard atKanetberg) for allowing us to collect plant and soil samples from theircommercial Honeybush tea plantations.

摘　　要：Aims The role of tissue acid phosphatase(APase)activity of legumes and non-legumes in their P nutrition and adaptation to low-P soils is not well understood.To better understand this,a relationship between APase activ-ity and P concentration in leaves,stems,roots and nodules of legumes,Cyclopia and Aspalathus and a non-legume,Leucadendron strictum,all native to the P-poor soils of the Cape fynbos biome,was assessed.Methods Plants were collected and each separated into leaves,stems and roots.Phosphatase enzyme activity was assayed in soil using the p-nitrophenol method,while soil P and shoot P were measured using ICP-MS.To measure tissue APase activity,an acetate buffer was added into ground plant material and contents filtered.An ace-tate buffer and a p-nitrophenyl solution were added to the superna-tant and contents incubated.After incubation,NaOH(0.5 M)was added and absorbance read at 405 nm.Important Findings At Koksrivier,Cyclopia genistoides exhibited the highest leaf enzyme activity whilst Aspalathus aspalathoides showed the highest enzyme activity in the stems.At both Kleinberg and Kanetberg,Cyclopia subternata and Cyclopia longifolia showed the highest APase activity in leaves,followed by stems and low-est in roots.P concentration closely mirrored enzyme activity in organs of all test species from each site.APase activity posi-tively correlated with P concentration in organs of all the test Cyclopia and Leucadendron species,indicating that intracellular APase activity is directly linked to P mobilization and transloca-tion in these species.Percentage of N derived from fixation was positively correlated with tissue APase activity in C.genistoides(r=0.911^(*)),A.aspalathoides(r=0.868^(*))and Aspalathus cal-edonensis(r=0.957^(*)),suggesting that APase activity could be directly or indirectly linked to symbiotic functioning in these fynbos legumes,possibly via increased P supply to sites of N2 fixation.

关 键 词：Cape fynbos δ^(15)N Leucadendron strictum percent N derived from fixation P nutrition 

分 类 号：S15[农业科学—土壤学]