Heavy metal air pollutant Lead (Pb) is produced from incomplete combustion of the vehicle engine. Metal Pb that pollutes the air comes in two forms, namely in the form of gases and particles. As soon as motorized vehicles emit heavy metals including lead. This lead remains in the air for 4 - 40 days, so this causes the particles to be dispersed by wind to reach a distance of 100-1000 km from the source. Lead is used in gasoline for vehicles, paints and pesticides. Pb contamination can occur in air, water, as well as land. Pb pollution is a main problem, soil and dust around the highway generally contaminated with leaded gasoline for years. The aim of the research is to find out heavy metal lead (Pb) accumulation in Trembesi leaves (Samanea saman (Jacq.) Merr.) on Dr. J. Leimena and Jenderal Sudirman Street, Ambon during the COVID-19 pandemic period. These two streets are the most crowded and congested in the city but during the pandemic the number of commuting motor vehicles sees a major and drastic decline. The research is descriptive quantitative. Trembesi leave samples were taken in different vehicle density spot in three locations on Dr. J. Leimena and Jenderal Sudirman Street. Ten trembesi leaves that are on the bottom part and not exposed to vehicle emissions are collected in each of the location. Humidity and temperature are measured. The samples are taken into the Laboratory for further research analysis. The steps of the research include: Trembesi leaves sample and standard Pb solution preparation, and Atomic Absorption Spectrophotometry (AAS) method to determine the concentration. The results show that Pb concentration found in trembesi leaves on Dr. J. Leimena Street is 0.0013 mg/L and around 0.0003 – 0.0016 mg/L on Jenderal Sudirman Street. The Heavy metal lead (Pb) concentration found in both location is still below SNI 7387-2009. Despite the low number, it should not be ignored as Pb is accumulative.

Topics
Gasoline, Air pollution, Land transportation, Absorption spectroscopy, Pesticides, Coronaviruses
1.
Rumselly
,
K.U.
J. Kesehatan Lingkungan
,
8, 158–163
. (
2016
)
Google Scholar
 
2.
Laporan kegiatan Pengendalian Pencemaran Udara di Kota Bandung. LHK Kota Bandung
. (
2015
)
3.
Gusnita
,
D.
Berita
Dirgantara
,
95
.(
2012
).
Google Scholar
 
4.
Adhani
,
R
,
Husaini
.
Lambung Mangkurat University Press. Banjarmasin
(
2017
).
5.
Rahmi
,
R.
,
Prosiding Seminar Nasional Biotik
.
271
279
(
2017
).
6.
Yudha
P.G
,
Noli
,
A.Z
,
Idris
M
,.
J.Biologi Universitas Andalas
,
02
. (
2013
)
7.
Pratiwi
,
S.F. Djufri.
Andayani
,
D.
Nurmaliah
,
C.
Wardiah
.
J. Ilmiah Mahasiswa Keguruan dan Ilmu Pendidikan Unsyiah.
1
. (
2020
).
8.
Karimuddin
,
N.K.
 “Pengaruh Pemberian Pupuk Hijau Cair Kihujan (Samanea saman) dan Azolla (Azolla pinnata) Terhadap Kandungan Selulosa dan Hemiselulosa Rumput Gajah (Pennisetum purpureum)”.
Fakultas Peternakan UNHAS. Makassar
. (
2016
).
9.
Juliati
,
Mardhiansyah
,
M.
,
Arlita
,
T.
,
Jurnal Faperta
,
3
. (
2016
).
Google Scholar
 
10.
Susilastri
,
Kasim
A.
Dewata
,
I.
, “
Kajian Serapan Tanaman Penghijauan terhadap Logam Berat Akibat Perbedaan Transportasi di Kota Padang
”.
Menara Ilmu,
176-186
. (
2018
).
Google Scholar
 
11.
Martuti
,
N. K. T.
,
Biosantifika
,
5
.
36
42
(
2013
).
Google Scholar
 
12.
Suhaemi
,
Maryono
,
Sugiarti
.
Jurnal Chemica,
15
,
85
94
. (
2014
).
Google Scholar
 
13.
Suhadiyah
,
Sri
.
Seminar Nasional
.
Jurusan Biologi FMIPA Universitas Hasanuddin Makassar.
(
2010
).
Google Scholar
 
14.
Nurmawan
,
W.
Ogie
,
T.B.
,
Kainde
,
R.P.
Eugenia.
25
,
79
85
. (
2019
).
Google Scholar
 
15.
Hasbiah
,
A.W.
Mulyatna
,
L.
,
Musaddad
,
F.
Infomatek.
18
,
49
56
. (
2016
)
https://doi.org/10.23969/infomatek.v18i1.508
Google Scholar
Crossref
Search ADS
 
16.
Ismiyati
,
Marlita
,
D.
Saidah
,
D.
,
J. Manajemen Transportasi & Logistik (JMTransLog)
,
01
,
241
248
. (
2014
).
https://doi.org/10.54324/j.mtl.v1i3.23
Google Scholar
Crossref
Search ADS
 
17.
Inayah
,
S.N.
Studi Kandungan Pb dan Kadar Debu pada Daun Angsana (Pterocarpus indicus) dan Rumput Gajah Mini (Axonopus sp.) di Pusat Kota Tangerang
”.
UIN Syarief Hidayatullah Jakarta.
(
2010
).
Google Scholar
 
18.
Mosey
,
H.
,
Jurnal Ilmiah Sains.
11
,
1
. (
2011
).
https://doi.org/10.35799/jis.11.1.2011.43
Google Scholar
Crossref
Search ADS
 
19.
Standar Nasional Indonesia. SNI 7387-2009
. “Batas Maksimum Cemaran Logam Berat dalam Makanan. Badan Standarisasi Nasional”,
Jakarta
. (
2009
).
20.
Bandjar
,
A.
Kadar Logam Timbal (Pb) Pada Rambut Polisi Lalulintas Di Kecamatan Sirimau Kota Ambon
”.
Prosedding. Seminar Nasional Basic Science II. Universitas Pattimura. Ambon.
(
2010
).
Google Scholar
 
21.
Siregar
,
S.R.
,
Irwan
,
S.N.R.
,
Putra
,
E.T.S.
Vegetalika
,
9
,
316
329
. (
2020
).
https://doi.org/10.22146/veg.42694
Google Scholar
Crossref
Search ADS
 
22.
Tjitrosoepomo
,
G.
 “Taksonomi Tumbuhan”.
Gadjah Mada University Press
.
Yogyakarta
(
2012
).
23.
Kurniawati
,
D.A.
Pohon Trembesi (Albizia saman): Taksonomi, Habitat, dan Budidaya. ForesterAct, Media Kehutanan dan Lingkungan Hidup
. Https://foresteract.com/pohon-trembesi/. (
2019
)
Google Scholar
 
24.
Dahlan
,
E.
 “Trembesi Dahulunya Asing Namun Sekarang Tidak Lagi”.
Bogor
:
IPB Press
(
2010
).
25.
Nurhikmah
,
A.
,
Syamsidar
,
H.S.
,
Ramadani
,
K.
Al-Kimia
,
3
,
42
51
(
2015
).
26.
Sastrawijaya
,
A.T.
 “Pencemaran Lingkungan”.
Jakarta
:
Rineka Cipta
. (
2010
).
27.
Muntadhiroh
,
C.
Karakteristik anatomi dan potensi daun trembesi (Albizia saman (Jacq.) Merr.) di ruas jalan Kota Malang sebagai akumulator logam berat timbal (Pb)
”. http://etheses.uin-malang.ac.id/2984/1/10620074.pdf. (
2015
).
Google Scholar
 
28.
Istiaroh
,
P.D.
Martuti
,
N.K.T.
,
Bodijanto
,
P.M.H.
Biosaintifika
,
6
,
60
66
. (
2014
).
Google Scholar
 
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